Deoxycorticosterone Research Articles

P-06 WHEN IS GENDER SELECTION IN CONGENITAL ADRENAL HYPERPLASIA?

Abstract Introduction Congenital adrenal hyperplasia (CAH) is one of the most common (classical type; nonclassical type) genetic diseases and is inherited in an autosomal recessive manner. This disease can lead to adrenal insufficiency, fluid-electrolyte disorder, and ambiguous genitalia as a result of axis dysfunction in cortisol biosynthesis. The optimal time for gender identity formation is between the ages of 18 and 36 months. The gender assignment of patients with CAH should be done as soon as possible before people around them know about it. Clinical Case A 23-year-old patient with known CAH due to 21-hydroxylase deficiency was referred to our clinic by a psychiatrist 1 year ago with the diagnosis of gender dysphoria. In his history, the patient was admitted first to the hospital with complaints of nausea and vomiting only one month after birth by his family. During examination at that time, BP was 70/40mmHg, and genital examination revealed ambiguous genitalia. In laboratory tests, Na:128mEq/l, K:5.1 mEq/l, DHEA-SO4: 4mcg/dl, basal cortisol: 1.18 mcg/dl and 17-OH progesterone: 6.8 ng/ml were found, and Karyotype analysis was reported as 46 XX. According to these results, the patient was diagnosed with CAH. Genetic analysis revealed CYP21A2 IVS2-13 C>G homozygous mutation. The patient who has classical type CAH was accepted as a phenotypically and genetically female child by her family and had undergone 2 correction operations since the age of 1 due to ambiguous genitalia. Between 2003 and 2013, he continued his follow-up in the pediatric endocrinology department and used Hydrocortisone + Fludrocortisone treatment in varying doses. He expressed that he did not go for regular check-ups and did not use his medications until 2018. Due to being untreated for a long time, his testosterone levels were high as male normal ranges, and his phenotype was male. The Ferriman-Gallwey score was determined as 22, and reconstruction scars and narrow vaginal opening were observed in the genital examination. In the laboratory test without any treatment were 17-OH-progesterone > 20ng/ml, basal cortisol: 7.8 mcg/dl, ACTH: 570 pg/ml, total testosterone: 524 ng/L, estradiol: 42 ng/L, DHEAS:252 mcg/dl, FSH:4.5 IU/L, LH: 0.76 IU/L, Na:136 mEq/L, K:4.3 mEq/L. The patient, who had simple virilizing CAH and gender dysphoria together, was first planned to start steroid replacement therapy in terms of CAH treatment. According to his clinical course, a decision was made to re-evaluate him in terms of identity change and testosterone replacement therapy. Conclusion The majority of CAH patients were raised as chromosomally female-identifying and living as female despite masculinized gender behaviors. Only 5.2% of these patients experienced gender dissatisfaction. Recent studies have shown that rather than intrauterine hormone exposure, regular treatment during the growth period and gender orientation during follow-up are more accurate and important regarding psychosocial satisfaction.Figure 1Possesses a masculine phenotype without using any testosterone

Heart remodelling affects ECG in rat DOCA/salt model.

Myocardial remodelling involves structural and functional changes in the heart, potentially leading to heart failure. The deoxycorticosterone acetate (DOCA)/salt model is a widely used experimental approach to study hypertension-induced cardiac remodelling. It allows to investigate the mechanisms underlying myocardial fibrosis and hypertrophy, which are key contributors to impaired cardiac function. In this study, myocardial remodelling in rat deoxycorticosterone acetate/salt model was examined over a three-week period. The experiment involved 11 male Sprague-Dawley rats, divided into two groups: fibrosis (n=6) and control (n=5). Myocardial remodelling was induced in the fibrosis group through unilateral nephrectomy, deoxyco-rticosterone acetate administration, and increased salt intake. The results revealed significant structural changes, including increased left ventricular wall thickness, myocardial fractional volume, and development of myocardial fibrosis. Despite these changes, left ventricular ejection fraction was preserved and even increased. ECG analysis showed significant prolongation of the PR interval and widening of the QRS complex in the fibrosis group, indicating disrupted atrioventricular and ventricular conduction, likely due to fibrosis and hypertrophy. Correlation analysis suggested a potential relationship between QRS duration and myocardial hypertrophy, although no significant correlations were found among other ECG parameters and structural changes detected by MRI. The study highlights the advantage of the DOCA/salt model in exploring the impact of myocardial remodelling on electrophysiological properties. Notably, this study is among the first to show that early myocardial remodelling in this model is accompanied by distinct electrophysiological changes, suggesting that advanced methods combined with established animal models can open new opportunities for research in this field. Key words Myocardial fibrosis, Remodelling, Animal model, DOCA-salt, Magnetic resonance imaging.

The Role of the Tricellular Junction Protein ILDR2 in Glomerulopathies: Expression Patterns and Functional Insights

The tricellular tight junctions are crucial for the regulation of paracellular flux at tricellular junctions, where tricellulin (MARVELD2) and angulins (ILDR1, ILDR2, or LSR) are localized. The role of ILDR2 in podocytes, specialized epithelial cells in the kidney, is still unknown. We investigated the role of ILDR2 in glomeruli and its influence on blood filtration. Western blots, single-cell RNA sequencing (scRNA-seq), and superresolution microscopy showed a strong expression of ILDR2 in podocytes that colocalized with the podocyte-specific claudin CLDN5. Co-immunoprecipitation revealed that ILDR2 interacts with CLDN5. In glomerulopathies, induced by nephrotoxic serum and by desoxycorticosterone acetate (DOCA)-salt heminephrectomy, ILDR2 was strongly up-regulated. Furthermore, Ildr2 knockout mice exhibited glomerular hypertrophy and decreased podocyte density. However, they did not develop effacement of podocyte foot processes or proteinuria. Liquid chromatography-tandem mass spectrometry (LC-MS/MS) proteomic analysis of isolated glomeruli showed an increase in matrix proteins, such as fibronectin and collagens. This suggests a protective role of ILDR2 in glomerulopathies.

Does the kidney influence the hunger for salt?

Sympathetic overactivation contributes to hypertension. Renal denervation can reduce blood pressure. In the deoxycorticosterone acetate (DOCA)-salt model of hypertension, salt consumption contributes to high blood pressure. A report in Kidney International finds selective ablation of renal sensory afferent nerves diminishes self-directed saline intake in the DOCA-salt rat. This suggests that these sensory nerves input to centers in the brain, amplifying salt intake. If translatable, renal denervation may have an unanticipated benefit of reducing the drive to consume salty foods in patients with poorly controlled hypertension.

Vaginal administration of 17-alpha hydroxyprogesterone caproate appears to be safe in non-pregnant female rats and rabbits

Intramuscular (250 mg once weekly) or subcutaneous (275 mg once weekly) injections of 17-hydroxyprogesterone caproate (17-OHPC) has been utilised to prevent recurent spontaneous preterm birth in pregnant women with a short cervix or those with a prior preterm birth but its efficacy in these conditions has been questioned. It is unclear whether adequate concentrations of 17-OHPC reach the suspected target organs such as the cervix and uterus following either IM or SC administration. The objective of this study was to determine feasibility and safety of vaginal administration of 17-OHPC in adult female Sprague Dawley rats and female New Zealand rabbits. Gels containing 17-OHPC were administered intravaginally to rats and rabbits for 10 consecutive days. After the last dose, serial blood samples and terminal uterine and adipose tissue samples were collected. 17-OHPC concentrations were measured by LC-MS-MS. Tissue histology showed that intravaginal administration of 17-OHPC was safe. There was no renal or hepatic toxicity as measured by liver function and kidney function tests. Intravaginal administration of 17-OHPC resulted in low systemic plasma concentrations but substantially higher uterus and adipose tissue concentrations of 17-OHPC. Composition of the formulation affected the tissue distribution of 17-OHPC. Future studies warrant further evaluation of the effect and safety of daily intravaginal administration of 17-OHPC gel in pregnant animals.

ERBB4 activation prevents microvascular dysfunction in a large animal model of hypertensive heart disease

Abstract Background Coronary microvascular dysfunction (CMD) participates in the pathophysiology of multiple cardiovascular diseases, but treatment options are limited. A new treatment option may include ERBB4 stimulation by neuregulin-1 (NRG1), which has anti-inflammatory, antifibrotic, and cardioprotective effects in models of heart failure. Objectives To assess the effect NRG1/ERBB4 stimulation on CMD in hypertensive heart disease. Methods Hypertensive heart disease was induced in 12 Aachener minipigs by implantation of deoxycorticosterone acetate (DOCA) pellets for 8 weeks and compared to 6 controls. The DOCA pigs were randomized to a weekly infusion of JK07, a NRG1 fusion protein with improved pharmacokinetic and pharmacodynamic properties, or vehicle. Microvascular resistance was measured using the bolus thermodilution method. Results DOCA significantly increased microvascular resistance compared to controls (from 14.5 to 19.9 mmHg.s, p = 0.028). This increase was abrogated by JK07 (11.3 mmHg.s, p = 0.018 vs DOCA). dP/dtmax increased by DOCA compared to controls (from 2415.5 to 4455.5 mmHg/s, p = 0.011), which was also abrogated by JK07 (3107.3 mmHg/s, p = 0.055 vs DOCA). Interstitial left ventricular fibrosis was significantly lower in JK07-treated pigs compared to DOCA only (2.1 vs. 5.4 %, p = 0.026), but without difference in perivascular fibrosis (p = 0.48). JK07 did not affect myocyte cross-sectional area, capillary density, pericyte coverage, or microvascular vessel thickness. Conclusions ERBB4 activation by JK07 is capable to prevent CMD in a DOCA hypertensive pig model. Functional rather than structural alterations may explain the protective effects of JK07 on microvascular resistance.Visual summaryJK07 decreases microvascular resistance

Effect of climatic factors on sexual maturity Labeo rohita fish

<p>This study examined the varying levels of thyroxine hormone impact (at doses of 2, 10, and 50 µg g-1 BW) as an environmentally responsive hormone on the fatty acid and sexual steroid profiles in male Labeo rohita fish. Each treatment group comprised six male fish with an average weight of 5.4 ± 0.58 kg. Blood samples were collected from male rohu fish pre-and post-injection, as well as following sperm retrieval from the caudal peduncle. Biotechnical parameters were evaluated post-fertilization. Among male breeders, the pituitary treatment and the 50 µg g-1 BW thyroxine treatment exhibited the highest levels of estradiol, testosterone, 17-alpha hydroxyprogesterone, cortisol, LH, as well as testicular protein and fat content. Whereas the lowest levels were observed in the LHRH recipient and control groups (p < 0.05). Moreover, the saturated fatty acids C16:0 and C18:0, monounsaturated fatty acids C18:1n9c and C24:1n9, along with polyunsaturated fatty acids C20:3n6 and C22:6n3 in male breeders, were found to be the predominant fatty acids in the testes under hormonal treatment. The pituitary treatment and the 50 µg g-1 BW thyroxine treatment demonstrated a greater total percentage of testicular fatty acids compared to other interventions (p < 0.05). These findings emphasize the heightened efficacy of pituitary hormone and subsequent thyroxine hormone administration at a dose of 50 µg g-1 BW, relative to lower thyroxine doses and LHRH. The aforementioned treatment can increase the levels of sex hormones that are important for sexual responsiveness, emphasizing their pivotal role in facilitating successful artificial reproduction in male Rohu breeders.</p>

6629 Pure Androgen Secreting Adrenal Adenoma In A Premenopausal Woman

Abstract Disclosure: S. Syed: None. Background: Pure androgen secreting adrenal adenomas are extremely rare; most of the reported cases occur in post-menopausal women, with significant virilization of acute onset and are usually malignant. Here we present a case of an androgen secreting adrenal adenoma found in a young female with regular menstrual cycles and hirsutism. Clinical Case: A 27-year-old female with no significant past medical history was referred to Endocrinology clinic for evaluation of elevated testosterone level noted on a routine OBGYN exam. Patient had miscarriage six months prior to initial endocrine clinic visit. She had a routine follow up visit with her gynecologist after miscarriage and noted to have mild male pattern hair growth on her chin, worse after stopping birth control pills two years ago. Patient had menarche at 14 years of age and had regular menstrual cycle until started birth control pills. The skin examination revealed coarse male pattern hair on chin. Scattered acne was present on back. No signs of hypercortisolism were present. Labs done at time of initial consultation showed unremarkable comprehensive metabolic panel, thyroid and gonadotropic hormones. Testosterone was elevated at 122ng/dl (0-75ng/dl). Pelvic ultrasound done in the year prior showed normal uterus and adnexal structures. Further work up showed elevated DHEAS 781 µg/dL (18-391 µg/dL) and normal 17 OH progesterone and androstenedione levels. MRI abdomen with and without contrast done at outside facility showed a 4 cm x 3.3 cm x 4.1 cm well-circumscribed round shaped, mildly heterogeneously enhancing mass arising from right adrenal gland, with restricting diffusion, no signal dropout in out-of-phase imaging. Normal ovaries were noted. Given the large size of lesion, adrenalectomy was recommended. Patient underwent laparoscopic right adrenalectomy. The histologic features on pathology specimen were consistent with an adrenal cortical adenoma. No evidence of malignancy was seen (based on modified Weiss criteria). 3 weeks post op labs showed Testosterone level reduced to 19 ng/dl (0-75ng/dl) and DHEAS 138 ug/dl (18-391 µg/dL). Patient is recovering from recent childbirth. Conclusion: In adults, pure androgen secreting adrenal tumors are extremely rare. Diagnosis of malignancy is made with histopathological examination and Weiss score calculation. Our patient has unique presentation of having mild hirsutism in setting of regular menstrual cycles with no other symptoms of virilization and is noted to have unexpectedly large adrenal adenoma. Given the size of adenoma, there was concern for adrenal cortical carcinoma, however histological examination was consistent with a benign lesion. Presentation: 6/1/2024

8528 An Unusual Case Of Adrenal Hemorrhage As An Initial Manifestation Of Castleman Disease In A 29 yo Male With Unsuspected Late-Onset Congenital Adrenal Hyperplasia

Abstract Disclosure: L.M. Martel: None. F. Mercier: None. S. Parisien-La Salle: None. A. Lacroix: None. A. Liberman: None. N. Bettache: None. H. Olney: None. I. Bourdeau: None. Background: Castleman disease is a lymphoproliferative disorder with no clear etiology. We report the case of a 29 yo man presenting with an adrenal hemorrhage as initial manifestation of Castleman disease and unsuspected late-onset congenital adrenal hyperplasia. Clinical case: A 29-year-old male with no significant past medical history except for unilateral orchiectomy at 1 year-old for a possible testicular mass was referred to our adrenal clinic for a 6,2x7,5 cm left adrenal mass showing at CT scan necrosis and an hemorrhagic component (HU52). The patient presented initially with acute left abdominal pain. The adrenal mass showed at peripheral high uptake at PET-FDG (SUVmax 5,3) with no central uptake. His physical exam was unremarkable except for obesity. The hormonal work-up for the adrenal mass revealed normal metanephrines, and normal 1mg-dexamethasone suppression test with morning cortisol of 18 nmol/L (N<50). Further hormonal investigations based on the high adrenal mass uptake and possible adrenocortical carcinoma included: 17-OH Progesterone: 7.7 nmol/L (N:1.1-7.0), Androstenedione: 14.1 nmol/L (N: 1.5-9.0), Testosterone: 11.3 nmol/L (N: 9.0-28.3) and DHEAS: 3.6 umol/L (2.3-18.7). The ACTH levels were increased at 21.2 pmol/L (N:2-11) with morning cortisol of 220 nmol/L. During the consultation, the patient reported a pleuritic chest pain and underwent an urgent CT pulmonary angiography showing a pulmonary embolism with lung infarction in addition to mediastinal lymphadenopathy (biopsy negative) and a mass in his thymus. He underwent thymectomy and the pathology report described Castleman disease (hyaline vascular type). Taking into account the increased level of 17-OH progesterone, we performed an ACTH stimulation test (250 mcg) that showed an increase of cortisol levels from 333nmol/L to 874nmol/L at 60 minutes and of 17OH Progesterone levels from 5.2nmol/L to 44.2nmo/L excluding adrenal insufficiency, but confirming the diagnosis of late-onset congenital adrenal hyperplasia. Genetic analyses: After written consent, the patient underwent genetic analysis of the CYP21A2 gene by direct sequencing and MLPA. The analyses revealed a heterozygous pathogenic variant in the CYP21A2 gene (c.293-13A/C>G). No other genetic variant was identified in the gene. Follow-up: Subsequent adrenal MRIs showed decreasing size of the left adrenal mass; 3 cm at 3 months, 2 cm at 6 months and no residual mass was seen at 9 months supporting the diagnosis of adrenal hemorrhage. Conclusion: To our knowledge, we report a first case of Castleman disease presenting with adrenal hemorrhage as initial symptom with the association of late-onset congenital adrenal hyperplasia. The possible link between these diseases remains to be explored. Presentation: 6/3/2024

6372 Changes in Blood Steroid Hormone Profile after Switching from Metyrapone to Osilodrostat

Abstract Disclosure: K. Yokozeki: None. H. Kameda: None. A. Miya: None. H. Nomoto: None. A. Nakamura: None. S. Jin: None. K. Matoba: None. T. Atsumi: None. Background: The new steroidogenesis inhibitor osilodrostat has recently been approved for use in Cushing's syndrome. However, there are limited studies on changes in blood steroid hormone profiles after switching from existing drugs including metyrapone. Purpose: To study the changes in steroid hormone profiles with switching from metyrapone to osilodrostat in patients with Cushing's disease and to examine the differences in clinical efficacy. Case 1: A woman in her 40s underwent transsphenoidal pituitary tumor surgery (TSS) for Cushing's disease in X-12, but was not in remission and was treated with 1000 mg/day of metyrapone and oral hydrocortisone. In X-3, the patient complained of masculinization and was started pasireotide LAR 10 mg per month, which was subsequently increased to 30 mg. Despite the addition of 240 mg/day of trilostane in X-2, the patient did not show improvement. Switched the steroidogenesis inhibitors to osilodrostat 4 mg/day in year X, blood cortisol and testosterone levels decreased and the symptoms of virilization disappeared.Case 2: A woman in her 40s experienced edema in her face and limbs, increased appetite and weight gain since Y-13. After endocrinological examination, she was diagnosed with Cushing's disease. TSS was performed and she was in remission. However, she suffered a relapse in Y-4 and was started on metyrapone, which was titrated up to 4,000 mg/day. Due to gastric discomfort, metyrapone was switched to osilodrostat 52 mg/day in year Y, leading to an improvement of her gastric symptoms and stabilized blood cortisol level. Case 3: A woman in her 70s underwent TSS for Cushing's disease in Z-6, but the tumor remained and she was prescribed metyrapone 1,500 mg/day. The disease was stable and complications were under control with metyrapone. In Z-1, the patient developed elevated blood pressure and worsening leg edema, and metyrapone was switched to osilodrostat 3 mg/day in year Z, resulting decreased blood cortisol level and blood pressure. Results: Liquid chromatograph mass spectrometry (LC-MS) analysis of blood steroid hormone profiles in above three cases demonstrated a decrease in 17-OH pregnenolone, 17-OH progesterone, and 11-deoxycorticosterone after switching the steroidogenesis inhibitors. Discussion and Conclusion: It has been noted that osilodrostat lowers serum cortisol in a shorter period of time compared to metyrapone and may also decrease the number of antihypertensive medications used. Under metyrapone administration, hypertrichosis, hypertension, and hypokalemia are often observed with increased mineralocorticoid precursors, but osilodrostat may have a different clinical effect as a result of its different pattern of steroid hormone synthase inhibition. Presentation: 6/2/2024

7464 Delayed Diagnosis of Cushing’s Disease after Five Year History of Hirsutism

Abstract Disclosure: E. McBride: None. A.N. Davis: None. G. Elshimy: None. J. Vender: None. Introduction: Women may experience hirsutism for years before seeing a physician or before undergoing diagnostic testing. This case demonstrates that delayed workup of hirsutism can lead to delayed diagnosis and treatment of aggressive Cushing’s disease. Case: A 40-year-old African American female presented for initial evaluation with a 5-year history of hirsutism, which had never been evaluated, and a high cortisol level in the setting of type 2 diabetes mellitus and hypertension. She had a 60lb weight gain over 5 years, progressive hirsutism, easy bruising, and purple striae. Labs were significant for cortisol 23.86mcg/dL, ACTH 67pg/mL, HbA1c 8.9%, DHEAS 347mcg/dL, 17-OH progesterone 102ng/dL. A 1mg dexamethasone suppression test resulted in a non-suppressed cortisol of 12.64mcg/dL. She had an elevated 24 hour urine free cortisol level of 78mcg and an elevated midnight salivary cortisol with values of 474ng/dL and 396ng/dL. An 8mg dexamethasone suppression test resulted in a cortisol of 5.55mcg/dL. MRI brain pituitary protocol revealed a 6x4mm microadenoma of the pituitary gland. This is consistent with an ACTH producing pituitary adenoma (Cushing’s disease). The microadenoma was surgically removed by transsphenoidal approach. The pathology of the tumor revealed an elevated Ki-67 of 5%. Patient required hydrocortisone replacement for a couple of months that was later discontinued. Moreover, she is no longer on any medications for her diabetes, and her hypertension significantly improved postoperatively. Discussion: Hirsutism and androgen excess in women are most commonly caused by polycystic ovarian syndrome (PCOS). However, non-PCOS diagnoses, such as Cushing’s disease, should be considered as they are commonly missed due to lack of a pragmatic screening approach. Pituitary microadenomas are often benign, but 30-40% of cases are invasive and considered aggressive. Aggressiveness can be evaluated by using the tumor marker Ki67, which is a nuclear marker that reflects cell proliferation. While controversial, one proposed cutoff for aggressive pituitary adenomas is Ki67 ≥3%. The pathology of the tumor in this patient was aggressive with Ki67 of 5% This case demonstrates the importance of identifying hirsutism early in order to exclude the more dangerous causes of hirsutism such as Cushing’s disease. By early diagnosis and surgery, we may limit the progression of associated comorbidities such as diabetes mellitus and limit the growth of a potentially aggressive adenoma. Presentation: 6/1/2024

5116 Postmenopausal Hyperandrogenism due to Rare Ovarian Tumor

Abstract Disclosure: M. Salim: None. S. Dasaraju: None. Y. Lee: None. S. Afzal: None. B.K. Erickson: None. M.A. Khalifa: None. L.A. Burmeister: None. Background: Hyperandrogenism in postmenopausal women may arise from either ovarian or adrenal source and can pose challenging diagnostic dilemma. Clinical Case: A 66-year-old multigravida, post-menopausal woman presented with a 3-month history of worsening alopecia. Her past medical history included diabetes mellitus type 2 and breast cancer. Menarche was at age 12. There was no history of infertility. Menopause was in her 40’s. She had been shaving her upper lip and chin hair every 3 days for the past 10 years. Scalp hair loss had accelerated in the last 3 months, with loss of the bangs. Physical exam was significant for body mass index 34, deep voice, and clitoromegaly. Laboratory tests showed testosterone 160 ng/dL, (8-60 ng/dL), free testosterone 3.37 ng/dL (0.06-0.38 ng/dL), androstenedione 2.196 ng/mL (0.13-0.82 ng/mL), sex hormone binding globulin (SHBG) 31 nmol/L (30-135 nmol/L), dehydroepiandrosterone-sulfate (DHEAS) 86 ug/dL (13-130 ug/dL), 17-hydroxy progesterone 96 ng/dL (<51 ng/dL), inhibin A 1.1 pg/mL (<6.9 pg/mL), inhibin B <10 pg/mL (<16 pg/mL), adrenocorticotropic hormone 38 pg/mL (<47 pg/mL), and cortisol 12.2 ug/dL (4-22 ug/dL). Response to 1 mg overnight dexamethasone suppression test demonstrated persistently elevated testosterone (160 ng/dL), and incomplete suppression of androstenedione (0.827 ng/mL) and cortisol (2.4 ug/dL). Computerized tomography (CT) scan showed a left adrenal nodule (12 mm, 5 Hounsfield units, stable compared to imaging 2 years prior) and unremarkable appearance of the ovaries. Pelvic ultrasound did not show ovarian tumor on the right and left ovary was not seen. Adrenal and ovarian vein sampling suggested the ovaries as the source of the testosterone. Given the ovarian vein sampling results, a multidisciplinary discussion between endocrinology and gynecologic oncology concluded that bilateral salpingo-oophorectomy (BSO) was the next best step for diagnosis and management. Laparoscopic BSO was performed. Intraoperatively, the ovaries appeared grossly normal with the exception of dilated ovarian veins. Histopathology showed bilateral Leydig cell tumors (left: 1.5 cm; right: 2.0 cm) and a 0.7 cm left ovarian Brenner tumor. At 1-year postoperative follow-up, alopecia had resolved. Laboratory evaluation showed normalization of the testosterone (23 ng/dL), free testosterone (0.47 ng/dL). Androstenedione (1.023 ng/mL) was lower than before surgery but higher than reference range. Conclusion: The presented rare case of postmenopausal virilization is even more unique due to the synchronous presence of 2 rare ovarian tumors, both capable of causing hyperandrogenism, including bilateral ovarian Leydig cell tumor, Brenner tumor and adrenal incidentaloma. Despite normal appearing ovaries on imaging studies, BSO was ultimately necessary for diagnosis and management. Presentation: 6/3/2024

5116 Postmenopausal Hyperandrogenism due to Rare Ovarian Tumor

Abstract Disclosure: M. Salim: None. S. Dasaraju: None. Y. Lee: None. S. Afzal: None. B.K. Erickson: None. M.A. Khalifa: None. L.A. Burmeister: None. Background: Hyperandrogenism in postmenopausal women may arise from either ovarian or adrenal source and can pose challenging diagnostic dilemma. Clinical Case: A 66-year-old multigravida, post-menopausal woman presented with a 3-month history of worsening alopecia. Her past medical history included diabetes mellitus type 2 and breast cancer. Menarche was at age 12. There was no history of infertility. Menopause was in her 40’s. She had been shaving her upper lip and chin hair every 3 days for the past 10 years. Scalp hair loss had accelerated in the last 3 months, with loss of the bangs. Physical exam was significant for body mass index 34, deep voice, and clitoromegaly. Laboratory tests showed testosterone 160 ng/dL, (8-60 ng/dL), free testosterone 3.37 ng/dL (0.06-0.38 ng/dL), androstenedione 2.196 ng/mL (0.13-0.82 ng/mL), sex hormone binding globulin (SHBG) 31 nmol/L (30-135 nmol/L), dehydroepiandrosterone-sulfate (DHEAS) 86 ug/dL (13-130 ug/dL), 17-hydroxy progesterone 96 ng/dL (<51 ng/dL), inhibin A 1.1 pg/mL (<6.9 pg/mL), inhibin B <10 pg/mL (<16 pg/mL), adrenocorticotropic hormone 38 pg/mL (<47 pg/mL), and cortisol 12.2 ug/dL (4-22 ug/dL). Response to 1 mg overnight dexamethasone suppression test demonstrated persistently elevated testosterone (160 ng/dL), and incomplete suppression of androstenedione (0.827 ng/mL) and cortisol (2.4 ug/dL). Computerized tomography (CT) scan showed a left adrenal nodule (12 mm, 5 Hounsfield units, stable compared to imaging 2 years prior) and unremarkable appearance of the ovaries. Pelvic ultrasound did not show ovarian tumor on the right and left ovary was not seen. Adrenal and ovarian vein sampling suggested the ovaries as the source of the testosterone. Given the ovarian vein sampling results, a multidisciplinary discussion between endocrinology and gynecologic oncology concluded that bilateral salpingo-oophorectomy (BSO) was the next best step for diagnosis and management. Laparoscopic BSO was performed. Intraoperatively, the ovaries appeared grossly normal with the exception of dilated ovarian veins. Histopathology showed bilateral Leydig cell tumors (left: 1.5 cm; right: 2.0 cm) and a 0.7 cm left ovarian Brenner tumor. At 1-year postoperative follow-up, alopecia had resolved. Laboratory evaluation showed normalization of the testosterone (23 ng/dL), free testosterone (0.47 ng/dL). Androstenedione (1.023 ng/mL) was lower than before surgery but higher than reference range. Conclusion: The presented rare case of postmenopausal virilization is even more unique due to the synchronous presence of 2 rare ovarian tumors, both capable of causing hyperandrogenism, including bilateral ovarian Leydig cell tumor, Brenner tumor and adrenal incidentaloma. Despite normal appearing ovaries on imaging studies, BSO was ultimately necessary for diagnosis and management. Presentation: 6/3/2024

9243 Postmenopausal Hyperandrogenism due to Rare Ovarian Tumor

Abstract Disclosure: M. Salim: None. S. Dasaraju: None. Y. Lee: None. S. Afzal: None. B.K. Erickson: None. M.A. Khalifa: None. L.A. Burmeister: None. Background: Hyperandrogenism in postmenopausal women may arise from either ovarian or adrenal source and can pose challenging diagnostic dilemma. Clinical Case: A 66-year-old multigravida, post-menopausal woman presented with a 3-month history of worsening alopecia. Her past medical history included diabetes mellitus type 2 and breast cancer. Menarche was at age 12. There was no history of infertility. Menopause was in her 40’s. She had been shaving her upper lip and chin hair every 3 days for the past 10 years. Scalp hair loss had accelerated in the last 3 months, with loss of the bangs. Physical exam was significant for body mass index 34, deep voice, and clitoromegaly. Laboratory tests showed testosterone 160 ng/dL, (8-60 ng/dL), free testosterone 3.37 ng/dL (0.06-0.38 ng/dL), androstenedione 2.196 ng/mL (0.13-0.82 ng/mL), sex hormone binding globulin (SHBG) 31 nmol/L (30-135 nmol/L), dehydroepiandrosterone-sulfate (DHEAS) 86 ug/dL (13-130 ug/dL), 17-hydroxy progesterone 96 ng/dL (<51 ng/dL), inhibin A 1.1 pg/mL (<6.9 pg/mL), inhibin B <10 pg/mL (<16 pg/mL), adrenocorticotropic hormone 38 pg/mL (<47 pg/mL), and cortisol 12.2 ug/dL (4-22 ug/dL). Response to 1 mg overnight dexamethasone suppression test demonstrated persistently elevated testosterone (160 ng/dL), and incomplete suppression of androstenedione (0.827 ng/mL) and cortisol (2.4 ug/dL). Computerized tomography (CT) scan showed a left adrenal nodule (12 mm, 5 Hounsfield units, stable compared to imaging 2 years prior) and unremarkable appearance of the ovaries. Pelvic ultrasound did not show ovarian tumor on the right and left ovary was not seen. Adrenal and ovarian vein sampling suggested the ovaries as the source of the testosterone. Given the ovarian vein sampling results, a multidisciplinary discussion between endocrinology and gynecologic oncology concluded that bilateral salpingo-oophorectomy (BSO) was the next best step for diagnosis and management. Laparoscopic BSO was performed. Intraoperatively, the ovaries appeared grossly normal with the exception of dilated ovarian veins. Histopathology showed bilateral Leydig cell tumors (left: 1.5 cm; right: 2.0 cm) and a 0.7 cm left ovarian Brenner tumor. At 1-year postoperative follow-up, alopecia had resolved. Laboratory evaluation showed normalization of the testosterone (23 ng/dL), free testosterone (0.47 ng/dL). Androstenedione (1.023 ng/mL) was lower than before surgery but higher than reference range. Conclusion: The presented rare case of postmenopausal virilization is even more unique due to the synchronous presence of 2 rare ovarian tumors, both capable of causing hyperandrogenism, including bilateral ovarian Leydig cell tumor, Brenner tumor and adrenal incidentaloma. Despite normal appearing ovaries on imaging studies, BSO was ultimately necessary for diagnosis and management. Presentation: 6/3/2024

7874 Management Of “Hyperandrogenism” Confounded By Dermatology Biotin Prescriptions

Abstract Disclosure: S.S. Sundar: None. S. Shankar: None. M.S. Vaishnav: None. L. Lekkala: None. S. Sathyanarayana: None. C. Siddlingappa: None. K. M: None. T.-. Kamala: None. R.B. V: None. V. Nath: None. M.D. Chitra: None. P. Ravikumar: None. Introduction: Immunoassay interferences include: Cross-reactions, heterophile antibodies, biotin and anti-analyte antibodies, with positive or negative bias, leading to difficulties in clinical decision-making (confounding diagnosis, unnecessary investigations or inappropriate treatments). The interfering substance may be exogenous (e.g., drug or substance absorbed by patient) or endogenous (e.g., antibodies produced by patient). Clinical Case 2023 Dec 1 Dermatology management for hyperandrogenism 28-year-old female evaluated for acne 3 years (increased 4 months), hair fall 6 months and hirsutism 3 years (threading) Total Testosterone 443 ng/dL (10-55) CLIA Free Testosterone 8.9 pg/mL (0.1-6.4) ELISA DHEAS 209 µg/dL (35-430) CLIA S Cortisol 8 am 6.9 µg/dL (2.6-10.5) CLIA LH 4.2 mIU/mL (1.9-12.5); FSH 5.3 mIU/mL (3.0-8.0) T3 133 ng/dL (80-200); T4 8.5 ug/dL (4.8-12.7), TSH 3.78 µIU/mL (0.5-5.3) HbA1c 5.0%; Glucose fasting 81 mg/dL; Insulin fasting 39.4 mU/L (3-25); HOMA-IR 5.2; HOMA%B 380; HOMA%S 19.2; T3 133 ng/dL (80-200) 2023 Dec 14 Endocrinology for “scaringly” very high testosterone levels Menstrual history: Menarche 11 years; Cycles regular. Unmarried Family history: Diabetes++; Hirsutism+; Infertility- Physical exam: Height 159 cm; Weight 55 kg; BMI 21.8 kg/m2; Ferriman Gallwey score 11; Pulse 75; BP 79/62; Thyroid: Grade 0. In view of total testosterone levels in “neoplastic androgen excess” range, further endocrinology evaluations (multiple labs and assays) were carried out. However, discordance between the mild clinical versus severe biochemical hyperandrogenism was noted. Review of the dermatology prescription indicated that patient had consumed only one 10 mg tablet of biotin 36 hours before the earlier blood draw obtained by dermatologist. Total Testosterone 22.3 and 33.8 ng/dL (6-82) ECLIA; 19.7 (15-70) LCMS Free Testosterone 0.69 pg/mL (< 2.85) (ELISA) DHEAS 101 µg/dL (45-380) LCMS Androstenedione 104 ng/dL (75-205) LCMS 17OH Progesterone 0.89 ng/mL (0.16-2.05) EIA; 0.40 (0.35-2.9) LCMS S Cortisol 5.92 ug/dl (6-18) ECLIA; 5.45 (5-23) LCMS FSH 2.74; LH 6.07; Prolactin 20.1 ng/mL (4.7-23.3) T3 114 ng/dL; T4 7.2 µg/dL; TSH 1.29 Diagnosis Falsely elevated total testosterone (and free testosterone) levels due to biotin immunoassay interference. Clinical Lessons: Very limited studies exist confirming the exact clinical indications for biotin (eg: improvement of hair quality or quantity, or nail growth). FDA warning highlights biotin’s interference (false elevations or reductions) with immunoassays relying on biotin-streptavidin technology. Physicians must ask patients about supplement usage, and discontinue biotin for 8 hours for patients taking 10 mg/day, 3 days for 100-300 mg/day, 7 days for children taking 2 and 15 mg/kg/daily, and inform laboratory if diagnostic test was performed while taking biotin. Presentation: 6/2/2024

7452 A Diagnostically Challenging Case of Hyperandrogenism in Postmenopausal Woman

Abstract Disclosure: M.S. Hossain: None. S. Hossain: None. B. Gautam: None. H. liao: None. S.C. Kumar: None. D.S. Rosenthal: None. Background: The diagnosis of new-onset severe hyperandrogenism in postmenopausal women is rarely encountered, posing a unique challenge for clinicians. Ovarian hyperthecosis and androgen-secreting tumors are the usual suspects in post menopause. In our case ovarian hyperthecosis is the primary consideration but elevated 17-OH Progesterone (17-OHP) introduces the potential co-existence of Non classical congenial adrenal hyperplasia (NCCAH) or rare instances of Sertoli-Leydig Cell Tumor (SLCT). Case Presentation: A 70 years old female, with no past medical history, referred to the Endocrinology clinic for significantly elevated testosterone level. She reported excessive hair growth in various areas of her body since 2022, which required shaving almost every day. She also reported male pattern hair loss and weight loss of 15 lbs over the last three months. She denied headache, vision changes, deepening of voice, history of fertility problems and use of exogenous testosterone. Her vital sign were normal. On examination, she had clitoromegaly, terminal hair growth on her upper lip and chin, breast atrophy, male pattern baldness, but no cushingoid or acromegaly features. Blood tests showed significantly elevated total testosterone: 1422 ng/dl (2-45); free testosterone: 147.9 pg/ml (0.2-3.7) and Estradiol: 64 pg/ml (Postmenopausal <31) with low LH: 7.6 mIU/ml (Postmenopausal 10.0-54.7) and FSH: 22.2 mIU/mL (Postmenopausal 23-116). Her serum ACTH, DHEA Sulfate, 11-deoxycortisol, 17 OH pregnenolone, TSH, Free T4, prolactin, IGF-1 were normal while her 17-OHP: 396 ng/dl (<45 ng/dl) was significantly elevated. An ACTH stimulation test showed 17-OHP level of 734 ng/dl at 30 minutes and 901 ng/dl at 1 hour. Pelvic ultrasonography: right ovary of 2.3 x 1.6 x 1.9 cm and the left ovary of 3.1 x 1.8 x 3.0 cm. MRI showed normal adrenal glands but a prominent left ovary. Patient was referred to the Obstetrics department to undergo bilateral oophorectomy for the definitive diagnosis and treatment. Discussion: The current ACTH stimulation test for non-classical congenital adrenal hyperplasia is validated for premenopausal women but lacks standardization in post-menopausal state. In our case, distinguishing the source of elevated 17-OHP between adrenal (NCCAH) and ovarian (SLCT) was difficult. Unexpected asymmetry in ovarian size observed in our case further complicates the scenario, contrasting with the typical symmetrical enlargement seen in ovarian hyperthecosis. Pending surgical pathology will further guide the management. This case highlights the complexity of diagnosing hyperandrogenism in postmenopausal women, emphasizing the significance of thoroughly exploring differential diagnoses and meticulously analyzing laboratory results. Presentation: 6/2/2024

Abstract P359: Greater NLRP3 in Males Results in a More Pro-Inflammatory T cell Profile, but Comparable Increases in Blood Pressure to Females with DOCA-Salt

T cells contribute to the development of hypertension, but what mediates T cell activation in hypertension is still being investigated. The NLRP3 inflammasome is a key mediator of the inflammatory response, and NLRP3 contributes to deoxycorticosterone acetate (DOCA)-salt hypertension in male mice. Little is known regarding the role of NLRP3 in hypertensive females, but we previously published that greater increases in blood pressure (BP) in male DOCA-salt rats vs females is associated with a more pro-inflammatory T cell profile. The goal of the current study was to test the hypothesis that greater NLRP3 activation in males contributes to greater increases in BP and a more pro-inflammatory T cell profile than in females. Methods: Initial studies measured NLRP3 and IL1-β mRNA expression in kidneys of uninephrectomized (UNX) male and female Sprague Dawley rats randomized to vehicle or DOCA treatment (n=5/group). Additional UNX male and female rats were randomized to DOCA plus vehicle or an NLRP3 inhibitor, MCC950 (10 mg/kg), for 3 weeks. BP was measured via telemetry (n=5/group). Kidneys were harvested for flow cytometric analysis of T cells. Data were compared via 2-way ANOVA. Results: DOCA increased renal NLRP3 and IL1-β mRNA in males and females (NLRP3: P treatment <0.0001, P sex =0.0014; IL1-β: P treatment <0.0001, P sex =0.05), and increases were greater in males (P interaction =0.04, P interaction =0.02, respectively). DOCA treatment increased BP in males (105±4 to 190±1 mmHg) and females (97±3 to 167±5 mmHg), and treatment with MCC950 attenuated DOCA-induced increases in BP in both sexes (males: 107±3 to 174±2 mmHg; females: 98±3 to 159±7 mmHg; P treatment =0.004). Terminal BP values were compared and while BP was higher in males, the impact of MCC950 was comparable between the sexes (P sex =0.0001; P interaction =0.4). However, MCC950 attenuated DOCA-induced increases in renal CD4 + T cells and Th17 cells to a greater degree in males than in females (CD4+: P treatment <0.001, P sex =0.03, P interaction =0.04; Th17 cells: P treatment <0.001, P sex =0.001, P interaction =0.04). Conclusions: NLRP3 contributes to the development of DOCA-salt induced increases in BP and inflammation in both males and females. However, males have greater NLRP3-mediated increases in renal T cells than females. The impact of this mechanism on renal function and the potential for targeted hypertensive therapies needs to be further examined.

Abstract MP03: Perineuronal nets in the paraventricular nucleus of the hypothalamus are altered during DOCA-salt hypertension

The paraventricular nucleus of the hypothalamus (PVN) is critical to integrate peripheral signals to modulate neurohumoral and sympathetic output. During hypertension, overactivation of the PVN contributes to neurohumoral dysregulation and increased sympathetic tone. Perineuronal nets (PNNs) are lattice-like extracellular structures that surround the soma and proximal dendrites of neurons and modulate neuronal firing and circuit plasticity. These structures are expressed throughout the brain, including the hypothalamus and PVN, and are of particular interest because changes in their deposition have been associated with multiple neurological disorders including stress, PTSD, and depression. Here, we explore changes in PNNs in the PVN during DOCA-salt hypertension, a model of neurogenic hypertension, specifically testing the hypothesis that PNNs deposition would be decreased in the PVN. 5-month old male C57BL6 mice were implanted with a s.c. deoxycorticosterone acetate (DOCA) pellet and received 0.9% NaCl in the drinking water. Blood pressure was monitored twice weekly by tail-cuff plethysmography. After 21-days of DOCA-salt (n=3) and sham control (n=4), mice were perfused with 2% paraformaldehyde to quantify PNNs using the marker N-acetylgalactosamine-binding Wisteria floribunda agglutinin (WFA). We found a trend towards less WFA+ neurons in the PVN in DOCA-salt vs control (42.29 ± 7.93 neurons/mm 2 in DOCA vs 68.97 ± 10.80 in control; p=0.1231), but observed no difference in the overall PVN area that was positive for WFA+ staining (26.53 ±0.80 % in DOCA vs 29.75 ± 2.02 % in control). Next, we quantified WFA intensity (PMID 28713865) and observed a decrease in individual PNN intensity in the PVN of DOCA-salt mice (40.08 ± 7.46 vs 67.39 ± 7.42 a.u. in control), as well as a decrease in total WFA+ intensity in the PVN (26.04 ± 3.48 vs 33.80 ± 0.29 a.u. in control; p=0.0458). We conclude that PNN deposition is decreased in the PVN during DOCA-salt hypertension, a potentially important mechanism which has been previously unexplored. PNN intensity has been previously associated with neuronal firing; therefore, ongoing studies are investigating the contribution of PNNs in the PVN to sympathetic tone and blood pressure regulation during DOCA-salt hypertension.

Abstract P228: Kdm6a Regulates Extracellular Matrix Genes During Arterial Stiffening and High Blood Pressure in Female Mice

Arterial stiffness measured by pulse wave velocity (PWV) increases steeply during menopause due to estradiol decline. Longitudinal studies show higher PWV in postmenopausal women compared to age-matched men. Previously, we have demonstrated increased PWV in ovariectomized (OVX) and middle-aged female mice. However, the impact of sex chromosomes on PWV is unknown in female mice. We hypothesize that a decline in estradiol unleashes the female sex chromosomes effect that promotes arterial stiffening. This study used four core genotype mice (n=6-10/group) of XX or XY sex chromosomes left intact or OVX for 8 weeks. Arterial stiffening was assessed with pulse wave Doppler and 24-hour blood pressure by radiotelemetry. Carotid artery passive myography and vascular reactivity of 2 nd order mesenteric artery were assessed by pressure myography. To induce hypertension, XX and XY mice were treated with deoxycorticosterone acetate (DOCA; 50 mg/pellet) for 21 days and 1% saline. In vitro, isolated aortic vascular smooth muscle cells (VSMC) were stretched on collagen matrix or treated with Kdm6a inhibitor GSKJ-1. PWV was significantly increased in OVX than in gonadal intact XX and XY mice (P<0.001). However, an interaction effect was indicated with higher PWV in XX than XY OVX mice (4.9±0.1 vs. 4.2±0.2 m/s; P<0.001), indicating a sex chromosome effect. Carotid artery stress-strain curves showed a leftward shift of XX than XY mice, suggesting increased structural stiffness. Masson’s trichrome staining of the aorta showed increased collagen in the adventitia of XX than XY (30% vs. 26%; P=0.005) mice. Higher systolic blood pressure (SBP) was indicated in XX than in XY mice (Baseline; 123±3 vs. 116±4 mmHg; P=0.02). Aortic RNAseq showed increased X-linked genes, including Kdm6a, in XX compared to XY mice. Stretched aortic VSMC showed increased Col1a1 and decreased Itga4 and Lama2 genes reversed by GSKJ-1. DOCA-induced hypertension blunted the PWV difference between XX and XY mice; however, SBP was higher in XX than in XY mice (Week 1: 135±13 vs.127±3 mmHg; P=0.03), but not weeks 2 and 3. We observed impaired acetylcholine-mediated relaxation in hypertensive XX than XY mice (47% vs. 24%; P=0.03). Our data suggested that OVX mice with XX sex chromosomes promote arterial stiffening and high blood pressure, and Kdm6a regulates extracellular matrix genes in XX female VSMC. DOCA-induced hypertension promotes endothelial dysfunction and blunts PWV in ovariectomized XX and XY mice.

Abstract P346: Expansion of meningeal lymphatic vessels in DOCA-salt hypertension

The meningeal lymphatic system is critical for proper brain waste clearance and maintenance of the local meningeal neuroimmune niche. Meningeal lymphatic function is impaired during aging and neurodegenerative diseases and is associated with the development of cognitive impairment. There is a bidirectional communication between meningeal lymphatic function and dural T cells, whereby the drainage of T cells into the deep cervical lymph nodes depends on functional lymphatic vessels, and meningeal lymphatic function is itself modulated by T cell derived cytokines. We have previously shown that IL-17A producing T cells accumulate in the dura during deoxycorticosterone acetate (DOCA)-salt hypertension and contribute to the impairment of neurovascular coupling and cognitive function. However, the mechanisms by which these T cells accumulate in the dura remain to be determined. Here, we tested the hypothesis that the meningeal lymphatic vessels are impaired during DOCA-salt hypertension, thus contributing to dural T cell accumulation. 12-week old C57BL6 male mice were implanted with a s.c. DOCA pellet and received 0.9% NaCl in the drinking water for 21 days (n=4). Control mice underwent a sham surgery (n=4). Blood pressure was monitored by tail-cuff plethysmography. Meningeal lymphatic vessels were assessed by immunohistochemistry using the lymphatic vessel marker LYVE1. In a separate group of mice, we assessed meningeal lymphatic function by delivering Alexa647-Ovalbumin or IgG-RPE into the cisterna magna and measuring fluorescence in the deep cervical lymph nodes one hour after injection. DOCA-salt mice developed increased systolic blood pressure (control: 117.7 ± 4.9 vs DOCA: 141.5 ± 2.9mmHg). We observed no difference in the CD31+ dural sinus area between control and DOCA-salt (control: 11.482 ± 0.718 vs DOCA: 11.816 ± 0.662 mm 2 ). We found a significant increase in LYVE1+ area surrounding the dural sinuses in DOCA-salt (control: 0.508 ± 0.039 vs DOCA: 0.816 ± 0.105 mm 2 ; p=0.0329 by unpaired two-tailed t-test) and an increase in LYVE1+/CD31+ % area (control: 4.476 ± 0.462 vs DOCA: 6.840 ± 0.609 %; p=0.0213 by unpaired two-tailed t-test) which was not different between the sagittal sinus or the transverse sinus. Contrary to our hypothesis, our data suggests that the meningeal lymphatic vessels are expanded, not retracted, during DOCA-salt hypertension. The interaction between meningeal lymphatics and dura immunity in hypertension remains to be determined.