Uterine Horn Research Articles

Artificial Insemination as a Possible Convenient Tool to Acquire Genome-Edited Mice via In Vivo Fertilization with Engineered Sperm

Advances in genome editing technology have made it possible to create genome-edited (GE) animals, which are useful for identifying isolated genes and producing models of human diseases within a short period of time. The production of GE animals mainly relies on the gene manipulation of pre-implantation embryos, such as fertilized eggs and two-cell embryos, which can usually be achieved by the microinjection of nucleic acids, electroporation in the presence of nucleic acids, or infection with viral vectors, such as adeno-associated viruses. In contrast, GE animals can theoretically be generated by fertilizing ovulated oocytes with GE sperm. However, there are only a few reports showing the successful production of GE animals using GE sperm. Artificial insemination (AI) is an assisted reproduction technology based on the introduction of isolated sperm into the female reproductive tract, such as the uterine horn or oviductal lumen, for the in vivo fertilization of ovulated oocytes. This approach is simpler than the in vitro fertilization-based production of offspring, as the latter always requires an egg transfer to recipient females, which is labor-intensive and time-consuming. In this review, we summarize the various methods for AI reported so far, the history of sperm-mediated gene transfer, a technology to produce genetically engineered animals through in vivo fertilization with sperm carrying exogenous DNA, and finally describe the possibility of AI-mediated creation of GE animals using GE sperm.

Symptomatic Uterine Rudiments in Adolescents and Adults with Mayer–Rokitansky–Küster–Hauser Syndrome (MRKHS): Management and Outcomes

Background: Women with an aplastic uterus (ESHRE/ESGE classification) or Müllerian agenesis (ASRM MAC 2021) might present with functional uterine remnants. Our study aimed to report the clinical course of symptomatic uterine rudiments in adolescents and adults with Mayer–Rokitansky–Küster–Hauser syndrome (MRKHS). Methods: This study involved 20 patients with MRKHS who, between 2012 and 2023, underwent surgery for symptomatic uterine horns at the mean age of 25.2 years in the Division of Gynaecology, Gynaecological and Obstetric Clinical Hospital, Poznan University of Medical Sciences, Poland. The records of the patients were retrospectively analysed. Results: The volume of the uterine horns ranged from 0.8 to 58.3 cm3, and the volume of the endometrial cavity within the horns ranged from 0.03 to 12 cm3, with no significant difference between adolescents and adults (p = 0.36). In five patients (25%), MRKHS was identified during the diagnosis of recurrent pelvic pain at the age of 12.6–14.8 years. In 19 patients, uterine rudiments were removed: unilaterally in 3 patients (16%), bilaterally in 16 patients (84%), and laparoscopically in 89% of cases. In one patient, the horn was preserved (horno-neovaginal anastomosis). Histopathology confirmed the presence of the endometrium in uterine rudiments ipsilateral to the pain location in 75% of cases. Four patients (20%) were diagnosed with endometriosis. Conclusions: Recurrent pelvic pain in patients with MRKHS should prompt the diagnosis of functional uterine rudiments. The resection of symptomatic uterine horns can result in the complete resolution of pain. Patients with endometriosis are at risk of pain recurrence. In some patients strongly desirous of menstruation, horno-neovaginal anastomosis can be cautiously attempted.

The effect of platelet-rich plasma on intra-abdominal adhesions in rabbit uterine horn model

The effect of platelet-rich plasma on intra-abdominal adhesions in rabbit uterine horn model

Transuterine relocation of pregnant uterine horn segment in an exploratory rat model with implications for tubal ectopic pregnancy

Ectopic pregnancy affects ~ 2% of pregnancies annually in the United States, with no current treatments allowing for the continuation of the pregnancy. Thus, this study sought to initiate an investigation into the potential design of a surgical technique, in an animal model, that could serve as a foundation for future research into the potential of relocating an ectopic embryo into the uterus at the human level. Female Long-Evans rats were randomly assigned to one of two groups: Embryo Relocation (ER; n = 12; underwent embryo relocation surgery) and Normal Pregnancy (NP; n = 12; carried a normal pregnancy; no surgery). Eight rats/group were allowed to carry their pregnancy to term and deliver, while four had their uteri collected at the end of gestation. Briefly, for the ER group, a uterine horn containing 1–2 embryos was translocated to the contralateral horn, which had been incised and cleared of its contents, prior to being wrapped around the relocated horn. Rat weight, food consumption and vaginal impedance of the mothers were measured throughout the experiment. Ultrasounds were performed and fetal heart rates measured on day 20–21 of gestation. Additionally, rat weight of all offspring was measured at adulthood. Our findings indicate that, in the ER group, 15/15 (100%) of the relocated embryos had detectable heart rates at the end of gestation (within the normal range), 14/15 (93%) were delivered vaginally, and 12/14 (86%) survived until adulthood. A significant decrease in rat weight and food consumption was observed only on the day following surgery. Fertility, as measured by vaginal impedance, was minimally impacted by surgery. Moreover, there was no significant difference between groups in average body weight of offspring at adulthood. Histological analysis indicated a thicker placenta in the ER group, attributable to the fetal part of the placenta, potentially indicating compensatory mechanisms. Our findings reflect a successful transuterine embryo relocation followed by vaginal birth and survival of offspring to adulthood, in a rat model. Such findings lay the foundation for future preclinical research in higher animals, with potential implications on a procedure relevant to human ectopic embryo relocation.

Evaluating the post-foaling mare with colic. Part 2: the genitourinary and reproductive tracts

Post-foaling colic is a common presenting complaint for equine practitioners that requires careful evaluation. Colic signs can be attributed to conditions of the gastrointestinal, reproductive and genitourinary tracts. Diagnostic workup is similar to that of most other cases of colic, with additional attention paid to the udder, vulva and vaginal vault; transabdominal ultrasound examination is often key in establishing a diagnosis. Conditions of the genitourinary and reproductive tracts include periparturient haemorrhage, which may be intra-abdominal, intrauterine, intramural, vaginal and/or into the broad ligament, uterine tear with or without intestinal evisceration, bladder rupture, septic metritis and/or retained foetal membranes, invagination of a uterine horn, uterine prolapse and bladder prolapse. Prompt diagnosis is vital as aggressive therapy is generally required for the majority of these conditions and prognosis is variable depending on the condition and severity.

“Cornual” Ectopic Pregnancies: Diagnostic Approach to Pregnancies Presenting Within the Uterine Cornua

“Cornual” Ectopic Pregnancies: Diagnostic Approach to Pregnancies Presenting Within the Uterine Cornua

Ectopic Pregnancy in a Non-communicating Rudimentary Uterine Horn: A Case of Successful Medical Management and Literature Review

Ectopic Pregnancy in a Non-communicating Rudimentary Uterine Horn: A Case of Successful Medical Management and Literature Review

Embryo Transfer Surgery via Laparotomy in Gilts.

This protocol aims to demonstrate the surgical technique for transferring cloned pig embryos to the oviduct, a method widely used in the production of genetically modified pigs for biomedical research. Nine gilts underwent hormonal synchronization and laparotomy for the transfer of cloned embryos produced by somatic cell nuclear transfer (SCNT) at stages of up to 4 cells on day 2 to the oviduct. Gestational diagnosis was conducted via ultrasound examination 30 days post-transfer surgery. Six out of the nine operated gilts exhibited signs of pregnancy on ultrasound examination. However, as there was no progression in fetal development as assessed by echography, the gilts underwent necropsy at 60 days for the collection of biological material and assessment of the reproductive system. Adhesions were observed in the uterine horns, ovaries, and oviducts. From the uterine lumen of two of the euthanized gilts, one and four embryonic structures with gestational ages ranging between 12 to 20 days were obtained. Despite the absence of live piglets, likely attributed to the low-efficiency rate of transferring cloned pig embryos, which is influenced by various factors, including the number and quality of transferred embryos, the presented surgical technique proved to be rapid and safe.

Obesity-induced extracellular vesicles proteins drive the endometrial cancer pathogenesis: therapeutic potential of HO-3867 and Metformin.

Endometrial cancer (EC) is the leading gynecologic malignancy in the United States with obesity implicated in 57% of cases. This research investigates the molecular complexities of extracellular vesicles (EV) secretion as carriers of oncogenic protein and their involvement in obesity-mediated EC. An understanding of these mechanisms is pivotal for unraveling pathways relevant to obesity-associated EC, thereby guiding the development of innovative prevention and treatment strategies. Our exploration revealed a significant increase in EV secretion carrying oncogenic proteins (TMEM205, STAT5, and FAS) in adipose and uterine tissues/serum samples from obese EC patients compared to control (without cancer). We identified alterations in EV-regulating proteins (Rab7, Rab11, and Rab27a) in obesity-mediated EC patients, adipose/uterine tissues, and serum samples. Through a 24-week analysis of the effects of a 45% kcal high-fat diet (HFD) on mice, we observed increased body weight, increased adipose tissue, enlarged uterine horns, and increased inflammation in the HFD group. This correlated with elevated levels of EV secretion and increased expression of oncogenic proteins TMEM205, FAS, and STAT5 and downregulation of the tumor suppressor gene PIAS3 in adipose and uterine tissues. Furthermore, our study confirmed that adipocyte derived EV increased EC cell proliferation, migration and xenograft tumor growth. Additionally, we identified that the small molecule inhibitors (HO-3867) or Metformin inhibited EV secretion in vitro and in vivo, demonstrating significant inhibition of high glucose or adipocyte-mediated EC cell proliferation and a reduction in body weight and adipose tissue accumulation when administered to HFD mice. Moreover, HO-3867 or Metformin treatment inhibited HFD induced hyperplasia (precursor of EC) by altering the expression of EV-regulated proteins and decreasing oncogenic protein expression levels. This study provides critical insights into the mechanisms underpinning obesity-mediated EV secretion with oncogenic protein expression, shedding light on their role in EC pathogenesis. Additionally, it offers pre-clinical evidence supporting the initiation of novel studies for EV-targeted therapies aimed at preventing obesity-mediated EC.

8245 Estradiol Interacts with the Val66Met Single Nucleotide Polymorphism in the Brain-Derived Neurotrophic Factor Gene to Alter Endometrial Thickness in a Rat Model

Abstract Disclosure: S. Moosa: None. E. Kohlmeir: None. S. Kujawa: None. D. Korol: None. A. Prakapenka: None. Brain derived neurotrophic factor (BDNF) is most known for its involvement in cell development, survival, and plasticity in the nervous system. BDNF and its cognate receptors can also be found in non-neural tissue including the ovary and uterus in humans and in animal models, suggesting that BDNF signaling may regulate reproductive functions. Indeed, disruptions in BDNF signaling are associated with health conditions related to the reproductive system, such as endometriosis. Studies show that treatment with estradiol increases expression of uterine BDNF and its cognate receptors, suggesting that estradiol can modulate BDNF signaling and its effects in the reproductive system. A common human functional single nucleotide polymorphism (SNP) in the BDNF gene, Val66Met (rs6265), is thought to decrease activity-dependent release of BDNF, altering BDNF signaling. Using a CRISPR/cas9 rat model of the human Val66Met BDNF SNP, we investigated the interacting role of estradiol and this variation in the BDNF gene on female uterine structure. Middle-aged (11-14-months-old) female rats were either homozygous for the Val allele (Val/Val; control) or the Met allele (Met/Met; BDNF SNP). All rats were ovariectomized and after three weeks randomly assigned to receive subcutaneous treatment of vehicle (sesame oil) or estradiol (17beta-estradiol benzoate) for two consecutive days. Twenty-four hours after the second injection, rats were euthanized and tissue collected, weighed, and placed in fixative. Uterine tissue weights differed significantly by treatment and by genotype such that uterine horns were heavier in estradiol-treated compared to vehicle-treated rats within each genotype and uterine horns were heavier in Met/Met compared to Val/Val rats within each treatment condition. To determine which uterine layer contributed to the weight differences, uterine horns were sectioned and stained with hematoxylin and eosin. Thickness of myometrium, endometrium, and lumen were individually measured. Although there were no treatment and no genotype effects on myometrial thickness, there were significant treatment and genotype effects on endometrial thickness. Of note, the endometrium of estradiol-treated Met/Met rats was thicker compared to vehicle-treated Met/Met rats and compared to estradiol-treated Val/Val rats, suggesting that estradiol and the BDNF gene variation interact to modulate endometrial size. Lumen circumference did not differ between genotypes but did increase with estradiol compared to vehicle treatment within each genotype. Altogether, findings suggest that BDNF genotype affects uterine structure, notably the endometrium. Differences with BDNF gene variation emerged with estradiol exposure, implicating the hormone’s role in modulating BDNF signaling and warranting future research on the interactive effects of estradiol and BDNF genotype on the endometrium. Presentation: 6/2/2024

8245 Estradiol Interacts with the Val66Met Single Nucleotide Polymorphism in the Brain-Derived Neurotrophic Factor Gene to Alter Endometrial Thickness in a Rat Model

Abstract Disclosure: S. Moosa: None. E. Kohlmeir: None. S. Kujawa: None. D. Korol: None. A. Prakapenka: None. Brain derived neurotrophic factor (BDNF) is most known for its involvement in cell development, survival, and plasticity in the nervous system. BDNF and its cognate receptors can also be found in non-neural tissue including the ovary and uterus in humans and in animal models, suggesting that BDNF signaling may regulate reproductive functions. Indeed, disruptions in BDNF signaling are associated with health conditions related to the reproductive system, such as endometriosis. Studies show that treatment with estradiol increases expression of uterine BDNF and its cognate receptors, suggesting that estradiol can modulate BDNF signaling and its effects in the reproductive system. A common human functional single nucleotide polymorphism (SNP) in the BDNF gene, Val66Met (rs6265), is thought to decrease activity-dependent release of BDNF, altering BDNF signaling. Using a CRISPR/cas9 rat model of the human Val66Met BDNF SNP, we investigated the interacting role of estradiol and this variation in the BDNF gene on female uterine structure. Middle-aged (11-14-months-old) female rats were either homozygous for the Val allele (Val/Val; control) or the Met allele (Met/Met; BDNF SNP). All rats were ovariectomized and after three weeks randomly assigned to receive subcutaneous treatment of vehicle (sesame oil) or estradiol (17beta-estradiol benzoate) for two consecutive days. Twenty-four hours after the second injection, rats were euthanized and tissue collected, weighed, and placed in fixative. Uterine tissue weights differed significantly by treatment and by genotype such that uterine horns were heavier in estradiol-treated compared to vehicle-treated rats within each genotype and uterine horns were heavier in Met/Met compared to Val/Val rats within each treatment condition. To determine which uterine layer contributed to the weight differences, uterine horns were sectioned and stained with hematoxylin and eosin. Thickness of myometrium, endometrium, and lumen were individually measured. Although there were no treatment and no genotype effects on myometrial thickness, there were significant treatment and genotype effects on endometrial thickness. Of note, the endometrium of estradiol-treated Met/Met rats was thicker compared to vehicle-treated Met/Met rats and compared to estradiol-treated Val/Val rats, suggesting that estradiol and the BDNF gene variation interact to modulate endometrial size. Lumen circumference did not differ between genotypes but did increase with estradiol compared to vehicle treatment within each genotype. Altogether, findings suggest that BDNF genotype affects uterine structure, notably the endometrium. Differences with BDNF gene variation emerged with estradiol exposure, implicating the hormone’s role in modulating BDNF signaling and warranting future research on the interactive effects of estradiol and BDNF genotype on the endometrium. Presentation: 6/2/2024

Case Report: Spontaneous cornual Pregnancy at 7 Weeks: A Gynecological challenge

Introduction and Importance Cornual pregnancy (CP) is a rare and dangerous type of ectopic pregnancy, occurring in 2% to 4% of cases. Due to its atypical location in the uterine horn, it poses a high risk for severe complications, such as rupture of the uterus, and life-threatening bleeding, particularly when diagnosis is delayed. Case Presentation We report the case of a 35-year-old female patient presenting with severe pelvic pain and vaginal bleeding, with 12 weeks of amenorrhea. Clinical evaluation revealed elevated β-HCG levels and transvaginal ultrasound showed a 7-week unruptured right cornual pregnancy. Surgical management involved a mini-laparotomy, which confirmed the diagnosis and a cornuostomy along with a right salpingectomy was performed. The patient’s postoperative course was uneventful, and follow-up confirmed complete recovery. Clinical Discussion Cornual pregnancies, though rare, carry a significant risk of serious complications and maternal death due to delayed diagnosis. Risk factors encompass a history of miscarriage, elective abortion, sexually transmitted infections, and smoking, all contributing to abnormal implantation. Early diagnosis is challenging but crucial, with ultrasound being key for detection. Management depends on gestational age, patient stability, and future reproductive plans, with methotrexate or surgical intervention being standard options. Conclusion Cornual pregnancy, despite its rarity, demands prompt and accurate diagnosis to prevent catastrophic outcomes. This case underscores the need for individualized treatment strategies and highlights the importance of early intervention. Ongoing research is vital to improving diagnostic approaches and therapeutic outcomes.

YiMu-QingGong san alleviates lipopolysaccharide-induced endometritis in mice via inhibiting inflammation and oxidative stress through regulating macrophage polarization

Ethnopharmacological relevanceEndometritis is a common reproductive disease in dairy cattle after calving, characterized by persistent inflammation of the endometrium. YiMu-QingGong San (YMQGS), a patented Chinese medicine formulation, has demonstrated efficacy in the treatment of clinical endometritis in dairy cattle. However, the potential mechanisms by which YMQGS alleviates endometritis remain unclear. Aim of the studyThe objective of this study is to elucidate the underlying therapeutic mechanisms of YMQGS in the context of endometritis. Materials and methodsThe chemical components of YMQGS were analyzed using UHPLC/MS. The anti-inflammatory capabilities of YMQGS were assessed by inducing an inflammatory response in RAW264.7 cells with lipopolysaccharide (LPS). Moreover, a clinical model of endometritis was simulated via vaginal injection of LPS into the uterine horns to investigate the therapeutic mechanisms of YMQGS. ResultsYMQGS could downregulate the expression of inflammatory mediators (TNF-α, IL-6, IL-1β) by suppressing the activation of the TLRs/MyD88/TRAF6/NF-κB signaling pathway in RAW264.7 cells. Additionally, YMQGS facilitated the polarization of RAW264.7 cells towards M2-like macrophages (Mφs) while inhibiting M1-like Mφs polarization, thereby exerting anti-inflammatory effects. Further investigation revealed that YMQGS could diminish ROS production, augment cellular antioxidant capacity, preserve mitochondrial membrane potential, and reduce intracellular [Ca2+]i accumulation, thereby minimizing cellular damage. In the mouse model of endometritis, YMQGS similarly inhibited the activation of the NF-κB signaling pathway in uterine tissues and modulated Mφ polarization in the endometrium, leading to a decrease in the expression of inflammatory factors and subsidence of the inflammatory response in the endometrium. Histological staining results showed that YMQGS reduced endometrial fibrosis, increased the expression of endometrial ZO-1, Occludin and glycoprotein, protect the endometrial barrier function, and prevent the further development of endometritis. ConclusionCollectively, the present study confirms that YMQGS possesses notable anti-inflammatory and antioxidant properties. The suppression of the NF-κB signaling pathway and the modulation of Mφ polarization emerge as the pivotal mechanisms by which YMQGS alleviates endometritis.

Laparoscopic endoloop excision of non-communicating rudimentary uterine horn ectopic pregnancy in the first trimester

Laparoscopic endoloop excision of non-communicating rudimentary uterine horn ectopic pregnancy in the first trimester

Is platelet-rich plasma effective in treating uterine inflammation in jennies inseminated with cryopreserved donkey semen?

Despite frozen donkey semen demonstrating high quality after thawing and achieving suitable pregnancy rates in mares, it yields unsatisfactory results in jennies, likely due to a stronger uterine inflammatory response. This study assessed the effects of platelet-rich plasma (PRP) on uterine inflammation and pregnancy rates in jennies inseminated with frozen donkey semen. Estrous cycles from 11 jennies were assigned to three groups: Control (CTR, n=22) with no treatment; Single PRP infusion (S-PRP, n=22) administered 30 hours after ovulation induction, prior to artificial insemination (AI); and Double PRP infusion (D-PRP, n=21) with the first infusion at 30 hours after ovulation induction and the second 4 hours after AI. Insemination was performed with frozen donkey semen (1 billion sperm) deposited deeply in the uterine horn immediately after ovulation. Endometrial edema, intrauterine fluid (IUF), uterine vascularization, and endometrial cytology were evaluated pre-AI (TCt) and post-AI (6, 24, and 48 hours). Uterine biopsies were taken at T48 for histopathological and collagen evaluation. Peripheral blood samples were collected on D5 for serum progesterone measurement, and pregnancy was evaluated via ultrasonography on D14. Data were analyzed using GLMMs, ANOVA, Friedman, and Kruskal-Wallis tests in SAS and GraphPad Prism, with significance set at p<0.05. The S-PRP group showed less IUF accumulation than the CTR group at T6. Other parameters showed no significant differences among the groups. Cytology revealed a high percentage of inflammatory cells at T6 in all groups, which decreased in subsequent evaluations. In the CTR group, neutrophil percentages were similar to TCt at T24, while treated groups reached this similarity only by T48. Eosinophil percentages increased over time only in the treated groups. Pregnancy rates showed no differences among the groups (CTR: 0%, S-PRP: 0%, D-PRP: 10%). Results indicate that PRP treatments were ineffective in modulating uterine inflammation and did not enhance pregnancy rates in jennies inseminated with frozen donkey semen.

In vivo revascularization and tissue effects of uterine artery embolization with starch microspheres in sheep.

In uterine artery embolization (UAE) for the treatment of fibroids, nondegradable particles permanently occlude the uterine artery (UA). These particles remain in the vessels and can cause secondary undesirable effects, such as severe pain after embolization and fertility issues. In this prospective experimental study, we aimed to evaluate the angiographic recanalization, local and systemic reactions, and uterine damage occurring after performing UAE with newly developed degradable starch microspheres (DSMs) in sheep. Under general anesthesia, eight nonpregnant sheep underwent bilateral UAE using DSMs to achieve stasis. Angiographic evaluation was performed on days 1, 3 and 7 after embolization to assess in vivo recanalization. In addition, the angiographic series were scored via a modified embolization score. A postmortem tissue examination was performed to determine whether DSMs and foreign body inflammatory reactions were present and to assess uterine necrosis. Complete bilateral embolization of the UA and cervicovaginal branches was achieved in all treated animals. Recanalization of the occluded arteries was evident in 25 of 27 arteries during the angiographic evaluation. In all sheep, there were multifocal areas of uterine necrosis, and some uterine vessels contained intraluminal material consistent with DSMs. The average weight of both uterine horns was significantly correlated with both the number of microspheres needed for complete embolization (r = 0.69, ρ<0.01) and the average percentage of necrosis in both uterine horns (r = 0.64, ρ<0.05). Our findings demonstrated the efficacy of vascular embolization with DSM by inducing ischemic changes in the uterus and subsequent recanalization of previously occluded arteries.

386 Pregnancy supportive metabolites are enhanced in Brahman cows on day 15 of the estrous cycle

Abstract Bos indicus-influenced cattle are more resilient to pregnancy loss while receiving a restricted nutrient diet compared with Bos taurus cattle, but the mechanism behind this resilience is still unknown. To undercover this mechanism, the present study was designed with Angus (Bos taurus), Brangus (Bos indicus-influenced), and Brahman (Bos indicus) cows randomly assigned (d -30) to either a 100% maintenance diet (n = 22), or a 70% maintenance diet (n = 23) for 45 d. All cows were submitted to a 5-d CO-Synch + CIDR synchronization protocol on d -7 with ovulation induction representing d 0. A cervically navigated foley catheter was placed in the uterine horn ipsilateral to the corpus luteum on d 15 of the estrous cycle. Approximately 50 mL of phosphate buffered saline was infused into the uterus then recovered for uterine flush analysis. Recovered uterine fluid was subjected to metabolomic analysis by ultra-high performance liquid chromatography - high resolution mass spectrometry. A significant breed by metabolite interaction occurred (P &amp;lt; 0.001). A treatment by metabolite interaction was also observed (P = 0.015) in which maintenance and restricted cows clustered within their respective treatment when plotted in an orthogonal PCA graph. Of the 101 metabolites analyzed, 7 metabolites (aspartate, glutamate, hydroxyphenylacetate, taurine, uric acid, uridine, and xanthine) differed (P &amp;lt; 0.05) among breeds. Brahman cows had the greatest value of all 7 metabolites (P &amp;lt; 0.05) except hydroxyphenylacetate (P &amp;gt; 0.10). Angus and Brangus metabolomic values were similar for aspartate, taurine, and uridine (P &amp;gt; 0.10) but differed for glutamate, hydroxyphenylacetate, uric acid, and xanthine (P &amp;lt; 0.05). Two metabolites that were greatest in Brahman cows (aspartate and glutamate) contribute significantly to the Kreb Cycle, indicating that Brahman cows have the ability to maintain proper amounts of substrates for energy production compared with Angus cows. Both glutamate and aspartate also aid in the removal of toxic ammonium as they are substrates for a-ketoglutarate and oxaloacetate, respectively, which both consume ammonium in their respective reactions. Furthermore, uric acid (which has a precursor of xanthine) was also greatest in Brahman cows and is a potent antioxidant with strong capabilities of scattering reactive oxygen species. Finally, aspartate also aids in the detoxification of ammonium within the urea cycle. Taken together, these four metabolites (aspartate, glutamate, uric acid, and xanthine) are working together but separately with the overall goal to provide more functional energy, while removing unnecessary toxins which may be two mechanisms in how Bos indicus-influenced cows are better able to sustain optimal reproductive efficiency than Angus cows.

R-954, a bradykinin B1 receptor antagonist, as a potential therapy in a preclinical endometriosis model

Endometriosis is a gynecological condition characterized by the growth of endometrium-like tissues outside of the uterine cavity. Currently available drugs are efficacious in treating endometriosis-related pain, however it’s not a targeted treatment. The aim of this work is to evaluate the effects of R-954, a bradykinin B1 receptor antagonist, in a murine model of endometriosis. The model was induced in animals through autologous transplantation of part of the uterine horn. After 51 days, it was observed that implants developed into endometriotic lesions. The administration of R-954 or progesterone, for 15 consecutive days, prevented the progression of cyst development, reduced the size and weight of the cysts. Both treatments also reduced cellular infiltrate and production of inflammatory mediators (interleukin-1β, interleukin-6, tumor necrosis factor). However, only R-954 decreased angiogenic factors (VEGF and VEGF receptor). In addition, treatment with the antagonist did not interfere in the females’ estrous cycle, as well as prevented gestational losses (reduction in the number of intermediate resorptions in pregnant females with endometriosis). Data suggested that R-954 has anti-inflammatory and anti-angiogenic effects; does not influence the estrous cycle; and prevents the number of gestational losses suggesting it as a good candidate for endometriosis treatment.

The Protective Effect of GnRH Agonist Triptorelin on the Histomorphometric Parameters of the Utero-ovarian Tissue in the Doxorubicin- and Cyclophosphamide-treated Mice.

One of the common side effects of chemotherapy drugs is ovarian failure and uterine dysfunction, which can occur after the administration of doxorubicin and/or cyclophosphamide. In clinics, gonadotropin-releasing hormone agonists (GnRHa) are used to modulate the toxic effect of chemotherapy and intercept infertility with some controversy and limited histological knowledge. This study aimed to evaluate the serological and histological features of protective effects of triptorelin, (GnRHa), on utero-ovarian tissue in the mice treated with cyclophosphamide and/or doxorubicin. Forty-eight female BALB/c mice were randomly divided into 8 groups as follows: Group I: normal saline; Group II: triptorelin; Group III: cyclophosphamide; Group IV: doxorubicin; Group V: cyclophosphamide + doxorubicin; and Groups VI, VII, and VIII: after injection of cyclophosphamide, doxorubicin, or cyclophosphamide + doxorubicin, administration of triptorelin (1 mg/kg; intraperitoneally) for 15 consecutive days, respectively. On the 21st day, the ovaries and uterine horns were dissected and weighed. Then, tissue processing and staining were performed for further histological and stereological studies. Triptorelin treatment in the damaged groups significantly increased the number of primordial and pre-antral follicles and granulosa cells. It decreased the number of atretic follicles compared to cyclophosphamide and/or doxorubicin-treated groups (P < 0.05). Triptorelin also significantly improved the volume of the ovary, cortex, medulla, oocytes in the primordial and antral follicles, uterus, endometrium, myometrium, uterine glands, and endometrial blood vessels in the damaged groups (P < 0.05). Triptorelin treatment prevents the destructive effects of cyclophosphamide and/or doxorubicin on utero-ovarian tissue.

Stimulation of Angiotensin II Receptor Subtype 2 Reduces Preeclampsia-like Symptoms in a Mouse Model of Preeclampsia.

Angiotensin II (AngII) receptor subtype 1 (AT1R) is involved in the pathogenesis of preeclampsia (PE). Angiotensin II receptor subtype 2 (AT2R) can antagonize the effects of AT1R, but its effects during pregnancy are not known. We investigated the effect of AT2R on the pathogenesis of PE using a mouse model and recently developed AT2R agonist (compound 21 [C21]). Blastocysts collected from pregnant imprinting control region (ICR) mice were incubated with adenovirus containing the CD40L gene and transferred into the uterine horns of pseudo-pregnant ICR mice to express PE-like features. Osmotic pumps were placed subcutaneously on the dorsal side with C21 or saline. C21 reduced the plasma soluble fms-like tyrosine kinase 1 (sFlt-1) concentration, ameliorating hypertension. The splenic T and B cell profiles in model mice were analyzed by flow cytometry. The gated percentage of IFN-γ-positive Th cells was significantly increased and the percentage of plasma cells in B cells was significantly decreased; however, the percentages were not altered by C21. sFlt-1 and soluble endoglin concentrations in plasma were measured with an enzyme-linked immunosorbent assay, and sFlt-1 was reduced. C21 could become a candidate PE drug as it ameliorated the pathophysiology of PE as a result of decreased production of sFlt-1.