Rapid Disease Progression Research Articles

Rapid Disease Progression of Myelodysplastic Syndrome is Reflected in Transcriptomic and Functional Abnormalities of Bone Marrow MSCs.

Bone marrow (BM) mesenchymal stromal cells (MSCs) are important regulators of hematopoietic stem and progenitor cells (HSPCs). When transformed to a dysplastic phenotype, MSCs contribute to hematopoietic diseases such as myelodysplastic syndromes (MDS), but it remains unclear if there are specific properties in MDS-MSCs that contribute to the disease course. To understand this, we investigated MDS-MSCs from fast (MDSfast) vs slow (MDSslow) progressing disease groups and discovered differences between these groups. MDSfast-MSCs secrete more inflammatory factors, support myeloid-skewed differentiation of HSPCs, and importantly, show poorer response to hypomethylation as a key differentiator in GSEA analysis. When exposed to long-term in vivo stimulation with primary MDSfast-MSCs-based scaffolds, healthy donor (HD) HSPCs show elevated NF-κB expression, similar to leukemic HSPCs in MDS. Those "MDSfast-MSCs-primed" HD-HSPCs continue to show enhanced engraftment rates in secondary MDS-MSC-based scaffolds, providing evidence for the microenvironmental selection pressures in MDS towards leukemic HSPCs. Together, our data point towards a degree of co-development between MSCs and HSPCs during the progression of MDS, where changes in MDS-MSCs take place mainly at the transcriptomic and functional levels. These unique differences in MDS-MSCs can be utilized to improve disease prognostication and implement targeted therapy for unmet clinical needs.

Abstract 4137869: Ross Procedure for Correction of Congenitally Unicuspid Aortic Valve: A Paradigm Shift?

Case 1: A 54-yr-old man reported exertional dyspnea for 3 months, with a systolic murmur on exam. TTE noted severe aortic stenosis, moderate insufficiency and possible bicuspid valve morphology. Coronary angiogram showed no obstructive disease. CT chest showed a 5-cm ascending aortic aneurysm. CT surgery evaluation was sought, and patient had a Ross procedure with aortic hemiarch repair. Intra-operative TEE confirmed a congenitally unicommissural, unicuspid aortic valve (UAV). A 7-month follow-up TTE showed a normal aortic and pulmonic prosthetic gradient. Case 2: A 46-yr-old lady reported progressive exercise intolerance, with a systolic murmur and faint S2 noted on exam. TTE showed severe aortic stenosis. MR angiogram showed a unicuspid valve and a mildly dilated aortic root. The patient was evaluated by CT surgery and underwent Ross procedure. TTE 4 years later showed a normal aortic and a moderately elevated pulmonic prosthetic gradient. Patient continues to exercise without limitations. Discussion: UAV is a rare entity with an incidence of 0.02%. It has a bimodal distribution, in infants and adults, with the unicommissural type more common in adults. Due to rapid progression of valvular disease, the mean age at diagnosis is 42 years. Concurrent aortic dilatation is present in 48% patients. Management of UAV is a matter of ongoing investigation. Classically, young patients with aortic valve disease underwent mechanical AVR. Ross procedure was under-utilized due to concerns about the surgical complexity and potential need for re-operation of the aortic and pulmonic grafts. However, recent studies show promising results. Patients with UAV have lower reoperation rates after a Ross procedure compared to a repair alone. Furthermore, a Ross procedure confers mortality benefit over mechanical AVR with no significant difference in immediate perioperative complications and mortality, although, this needs further investigation in a UAV cohort. Our cases support the feasibility of a Ross procedure for UAV, in providing a durable solution while avoiding anticoagulation in young patients. As Ross procedure is performed in limited centers, patients with UAV should be referred to such centers for definitive management.

CTNI-35. EVALUATE THE SAFETY AND PRELIMINARY EFFICACY OF THE COMBINATION OF NAVIFUS SYSTEM WITH RE-IRRADIATION FOR RGBM PATIENTS

Abstract The blood-brain barrier (BBB) remains the major obstacle in treating patients with malignant brain tumors. Radiation therapy (RT) is the mainstay adjuvant modality regardless of the BBB, but its effectiveness is hindered by the hypoxic microenvironment. Focused ultrasound (FUS) combined with systemic microbubbles has been shown to open the BBB and potentially increase regional perfusion. However, no clinical study has investigated the combination of RT with FUS-BBB opening (RT-FUS). Here, we report an interim analysis of an ongoing single-arm, prospective, pilot study (NCT04988750) combining RT-FUS for recurrent malignant high-grade glioma patients, where re-RT was considered for disease control. FUS-BBB opening was conducted within 2 hours before RT. Treatment responses were evaluated by objective response rate (ORR) using magnetic resonance imaging, progression-free survival, overall survival, and adverse events (AEs). In this pilot clinical trial, an interim analysis of six recurrent malignant high-grade glioma patients who underwent a total of 24 RT-FUS treatments was presented. Three patients experienced rapid disease progression after RT-FUS, while the other three patients had at least stable disease after RT-FUS, with or without salvage chemotherapy or targeted therapy. There were no FUS-related AEs, but re-RT-related grade three radiation necrosis was observed. The interim analysis of this ongoing clinical trial showed that the combination of RT-FUS was safe, with no FUS-related adverse effects. Two more cases will be recruited in this trial. A comprehensive analysis of radiation dosimetry and FUS energy distribution is expected after completing the final recruitment.

Plasma neurofilament analysis in VITALITY-ALS

Objective: To evaluate correlations between neurofilament (Nf) concentrations and clinical characteristics and disease progression using a large longitudinal dataset from VITALITY-ALS (ClinicalTrials.gov identifier: NCT02496767), a 48-week, randomized, double-blind, placebo-controlled clinical trial of tirasemtiv in people with ALS (pALS). Methods: Plasma was collected at baseline and every 8 weeks thereafter. Results were compared between treatment groups and evaluated by clinical characteristics and over time. Pearson’s correlation coefficients (r) were calculated to evaluate associations between Nf concentrations and slow vital capacity (SVC), Amyotrophic Lateral Sclerosis Functional Rating Scale-Revised (ALSFRS-R) score, and pre-study/in-study rates of disease progression (psRDP/isRDP). Results: Nf measurements were available from 101 placebo- and 161 tirasemtiv-treated people with ALS (pALS). There were no significant differences in Nf between placebo and tirasemtiv groups at any time point; further analyses grouped all samples. At baseline, Nf concentration did not differ by multiple clinical characteristics. Baseline Nf light chain (NfL) concentration correlated with the psRDP (r = 0.50, p < 0.001) and isRDP (r = 0.53, p < 0.0001). Phosphorylated Nf heavy chain (pNfH) demonstrated a similar, but less robust, pattern of results. Baseline Nf concentration correlated with change in SVC and ALSFRS-R score over time. Plasma pNfH concentration continuously decreased over time. There was no meaningful change in plasma NfL concentration over the study period. Conclusions: In this large longitudinal study, baseline NfL concentration correlated with multiple markers of disease progression. The findings suggest Nfs show promise primarily as prognostic markers for pALS, particularly for those with rapid disease progression.

Host genetics and gut microbiota influence lipid metabolism and inflammation: potential implications for ALS pathophysiology in SOD1G93A mice

Amyotrophic Lateral Sclerosis (ALS) is a devastating neurodegenerative disorder characterized by the progressive loss of motor neurons, with genetic and environmental factors contributing to its complex pathogenesis. Dysregulated immune responses and altered energetic metabolism are key features, with emerging evidence implicating the gut microbiota (GM) in disease progression. We investigated the interplay among genetic background, GM composition, metabolism, and immune response in two distinct ALS mouse models: 129Sv_G93A and C57Ola_G93A, representing rapid and slow disease progression, respectively.Using 16 S rRNA sequencing and fecal metabolite analysis, we characterized the GM composition and metabolite profiles in non-transgenic (Ntg) and SOD1G93A mutant mice of both strains. Our results revealed strain-specific differences in GM composition and functions, particularly in the abundance of taxa belonging to Erysipelotrichaceae and the levels of short and medium-chain fatty acids in fecal samples. The SOD1 mutation induces significant shifts in GM colonization in both strains, with C57Ola_G93A mice showing changes resembling those in 129 Sv mice, potentially affecting disease pathogenesis. ALS symptom progression does not significantly alter microbiota composition, suggesting stability.Additionally, we assessed systemic immunity and inflammatory responses revealing strain-specific differences in immune cell populations and cytokine levels.Our findings underscore the substantial influence of genetic background on GM composition, metabolism, and immune response in ALS mouse models. These strain-specific variations may contribute to differences in disease susceptibility and progression rates. Further elucidating the mechanisms underlying these interactions could offer novel insights into ALS pathogenesis and potential therapeutic targets.

Spike and Slab Regression for Nonstationary Gaussian Linear Mixed Effects Modeling of Rapid Disease Progression

ABSTRACTSelect measures of social and environmental determinants of health (referred to as “geomarkers”), predict rapid lung function decline in cystic fibrosis (CF), defined as a prolonged decline relative to patient and/or center‐level norms. The extent to which hyper‐localization, defined as increasing the spatiotemporal precision of geomarkers, aids in prediction of rapid lung decline remains unclear. Linear mixed effects (LME) models with specialized covariance functions have been used for predicting rapid lung function decline, but there are few options to properly incorporate spatial correlation into the covariance functions while inducing simultaneous variable selection. Our innovative Bayesian model uses a spike and slab prior for simultaneous variable selection and offers additional advantages when coupled with nonstationary Gaussian LME modeling. This model also incorporates spatial correlation through an additional random effect term that accounts for spatial correlation based on ZIP code distances. We validated the model with simulations and applied it to real CF data from a Midwestern CF Center. We demonstrate how a combination of demographic, clinical, and geomarker variables can be selected as optimal predictors using Bayesian false discovery rate controlling rule. Our results indicate that incorporating spatiotemporal effects and geomarkers into this novel Bayesian stochastic LME model enhances the dynamic prediction of rapid CF disease progression.

PD-1 blockade plus cisplatin-based chemotherapy in patients with small cell/neuroendocrine bladder and prostate cancers.

Small cell neuroendocrine cancers share biologic similarities across tissue types, including transient response to platinum-based chemotherapy with rapid progression of disease. We report a phase 1b study of pembrolizumab in combination with platinum-based chemotherapy in 15 patients with stage III-IV small cell bladder (cohort 1) or small cell/neuroendocrine prostate cancers (cohort 2). Overall response rate (ORR) is 43% with two-year overall survival (OS) rate of 86% (95% confidence interval [CI]: 0.63, 1.00) for cohort 1 and 57% (95% CI: 0.30, 1.00) for cohort 2. Treatment is tolerated well with grade 3 or higher adverse events occurring in 40% of patients with no deaths or treatment cessation secondary to toxicity. Single-cell and Tcell receptor sequencing of serial peripheral blood samples reveals clonal expansion of diverse Tcell repertoire correlating with progression-free survival. Our results demonstrate promising efficacy and safety of this treatment combination and support future investigation of this biomarker. This study was registered at ClinicalTrials.gov (NCT03582475).

IGLON5 Frequency in Idiopathic REM Sleep Behavior Disorder: A Multicenter Study.

Idiopathic/isolated REM sleep behavior disorder (iRBD) has been strongly linked to neurodegenerative synucleinopathies such as Parkinson disease, dementia with Lewy bodies, and multiple system atrophy. However, there have been increasing reports of RBD as a presenting feature of serious and treatable autoimmune syndromes, particularly IGLON5. This study's objective was to investigate the frequency of autoantibodies in a large cohort of participants with iRBD. Participants were enrolled in the North American Prodromal Synucleinopathy cohort with polysomnography-confirmed iRBD, free of parkinsonism and dementia. Plasma samples were systematically screened for the autoantibodies IGLON5, DPPX, LGI1, and CASPR2 using plasma IgG cell-based assay. Positive or equivocal results were confirmed by repeat testing, plus tissue-based indirect immunofluorescence assay for IGLON5. Of 339 samples analyzed, 3 participants (0.9%) had confirmed positive IGLON5 autoantibodies in the cell-based assay, which were confirmed by the tissue-based assay. An additional participant was positive for CASPR2 with low titer by cell-based assay only (of lower clinical certainty). These cases exhibited a variety of symptoms including dream enactment, cognitive decline, autonomic dysfunction, and motor symptoms. In 1 IGLON5 case and the CASPR2 case, evolution was suggestive of typical synucleinopathy, suggesting the possibility that findings were incidental. However, 2 participants with IGLON5 died before diagnosis was clinically suspected, with a final clinical picture highly suggestive of autoimmune disease. Our finding that nearly 1% of a large iRBD cohort may have a serious but potentially treatable autoantibody syndrome has important clinical implications. In particular, it raises the question of whether autoantibody testing for IGLON-5-IgG should be widely implemented for participants with iRBD, considering the difficulty in diagnosis of autoimmune diseases, their response to treatment, and the potential for rapid disease progression. However, any routine testing protocol will also have to consider costs and potential adverse effects of false-positive findings. NCT03623672.

HIV disease progression among heterosexually-infected individuals before the introduction of universal ART in China: A linear mixed-effects model.

In 2016, China introduced universal antiretroviral therapy (ART) for all HIV-infected individuals regardless of CD4 cell count. However, the natural history and rate of CD4 count decline among heterosexually-infected individuals remain uncharacterized. Analyzing national surveillance data can address this gap and shed light on the pathogenesis of HIV in this population. We used a linear mixed-effects model to assess CD4 trajectory over time before ART initiation and estimated the median time from HIV seroconversion to reaching CD4 thresholds of < 500, < 350, and < 200 cell/mm3. From the Chinese HIV/AIDS Comprehensive Response Information Management System, 59,085 eligible individuals were identified, with 113 having data to estimate the date of HIV seroconversion. The linear mixed-effects models estimated an intercept of 23.64 (95% confidence interval [CI]: 22.41 to 24.87) and a slope of -1.32 (95% CI: -1.34 to -1.30) for males, and an intercept of 22.70 (95% CI: 21.00 to 24.40) and a slope of -1.29 (95% CI: -1.31 to -1.27) for females. The estimated median times from HIV seroconversion to reaching CD4 count thresholds of < 500, < 350, < 200 cells/mm3 were 0.97, 3.74, and 7.20 years for males, and 0.26, 3.09, and 6.48 years for females, respectively. Males consistently took longer to reach these CD4 count thresholds compared to females of the same age group. Older individuals (≥ 40 years) reached CD4 thresholds faster than younger individuals (15-29 years), indicating more rapid disease progression in older people living with HIV.

Persistent renal dysfunction post-chemotherapy: a diagnostic conundrum in pediatric cancer survivorship – a case report

BackgroundLate-onset type II Bartter syndrome is an exceedingly rare condition, with only six documented cases presenting symptoms and signs beyond infancy. We report a unique case of late-onset type II Bartter syndrome with an atypical presentation and clinical course following chemotherapy treatment during childhood.Case presentationA 10-year-old boy, diagnosed with hepatoblastoma at age 2 and treated with cisplatin and epirubicin, presented with polyuria, polydipsia, failure to thrive, and electrolyte imbalances. He exhibited hypokalemia, metabolic alkalosis, and elevated urinary excretion of sodium, chloride, calcium, and magnesium. Whole exome sequencing and Sanger sequencing identified compound heterozygous variants in the KCNJ1 gene, confirming the diagnosis of type II Bartter syndrome. The patient’s clinical presentation was distinct from previously reported cases, with an absence of nephrocalcinosis, unusually small and hyperechoic kidneys, and a substantial decline in kidney function. Treatment included oral potassium supplementation, spironolactone, and angiotensin-converting enzyme inhibitors.ConclusionsThis case highlights the importance of considering late-onset Bartter syndrome in patients with a history of chemotherapy presenting with persistent electrolyte imbalances and ongoing renal dysfunction. The atypical features and rapid progression of chronic kidney disease in this patient may be attributed to the deleterious nature of the identified variants and the potential impact of previous chemotherapy on kidney susceptibility to damage. Careful monitoring and management of electrolyte imbalances and renal function are crucial in such cases.

High Behavioral Reactivity to Novelty as a Susceptibility Factor for Memory and Anxiety Disorders in Streptozotocin-Induced Neuroinflammation as a Rat Model of Alzheimer's Disease.

Individual differences in responsiveness to environmental factors, including stress reactivity and anxiety levels, which differ between high (HR) and low (LR) responders to novelty, might be risk factors for development of memory and anxiety disorders in sporadic Alzheimer's disease (sAD). In the present study, we investigated whether behavioral characteristics of the HR and LR rats, influence the progression of sAD (neuroinflammation, β-amyloid peptide, behavioral activity related to memory (Morris water maze) and anxiety (elevated plus maze, white and illuminated open field test) in streptozotocin (STZ)-induced neuroinflammation as a model of early pathophysiological alterations in sAD. Early (45 days) in disease progression, there was a more severe impairment of reference memory and higher levels of anxiety in HRs compared with LRs. Behavioral depression in HRs was associated with higher expression of β-amyloid deposits, particularly in the NAcS, and activation of microglia (CD68+ cells) in the hypothalamus, as opposed to less inflammation in the hippocampus, particularly in CA1, compared with LRs in late (90 days) sAD progression. Our findings suggest that rats with higher behavioral activity and increased responsivity to stressors show more rapid progression of disease and anxiety disorders compared with low responders to novelty in the STZ-induced sAD model.

Developing p21-activated kinase 1 (PAK1) activators to treat hypertrophic cardiomyopathy (HCM)

Abstract Despite significant progress in comprehending the genetic and metabolic underpinnings of cardiomyocyte dysfunction, there is still a pressing need for targeted treatments to address hypertrophy and progressive remodelling (e.g., fibrosis), seen in HCM1 . PAK1, a regulator of ion channels and myofilaments in cardiomyocytes, has shown promise in curbing pathological hypertrophy2 . Our hypothesis centres on the potential therapeutic benefits of pharmacologically activating PAK1 in managing hypertrophy and adverse remodelling in HCM. First, we conducted virtual screening and kinase assays to identify potent small molecule PAK1 activators, which significantly increased PAK1 activity by 3 to 5-fold, with an EC50 range between 0.5 and 2.5 μΜ. We then evaluated these compounds on cellular hypertrophy in an in vitro model using neonatal rat cardiomyocytes exposed to isoprenaline (ISO). Among those, JB2020A not only prevented ISO-induced hypertrophy, but also reversed pre-existing cellular hypertrophy induced by ISO 24 hours earlier. Subsequently, we assessed the therapeutic potential of JB2020A in a well-characterised HCM mouse model (i.e., Actc1E99K) 3 , known for its rapid disease progression. We initiated a six-week oral treatment regime at 4 weeks of age, dosing at 10 mg/kg per day. Echocardiography and fibrosis evaluation confirmed that JB2020A led to a significant reduction in cardiac hypertrophy and fibrosis with preserved contractile function. Western blotting analysis revealed increased PAK1 phosphorylation and activation in JB2020A-treated E99K hearts, along with a reduction in pro-apoptotic CHOP expression and an upregulation of protective endoplasmic reticulum (ER) response (e.g., ATF4 and Xbp1), indicating an amelioration of ER stress in HCM. These findings underscore the therapeutic potential of small molecule PAK1 activators as a novel approach for addressing hypertrophy and progressive remodelling in HCM.

Male systemic lupus erythematosus, rapidly progressive glomerulonephritis, and iatrogenic acute bone marrow failure: a case report

Lupus nephritis (LN) is a significant complication of systemic lupus erythematosus (SLE), marked by kidney inflammation due to autoimmune activity, leading to proteinuria, hematuria, and potentially renal failure. Rapidly progressive glomerulonephritis (RPGN) is a rare, critical manifestation of LN characterized by a rapid decline in kidney function. This condition can lead to irreversible renal damage and is often fatal without prompt treatment. In this case, a 62-year-old man initially presented with fever, cough, and body aches, which were treated as an acute upper respiratory infection. Despite initial improvement, he developed persistent nausea, vomiting, and signs of renal dysfunction. Laboratory investigations revealed anemia, high erythrocyte sedimentation rate (ESR), electrolyte imbalances, and elevated creatinine. Imaging and endoscopy ruled out malignancy, and a differential diagnosis of multiple myeloma was excluded through plasma protein electrophoresis. Serological tests confirmed SLE, and subsequent renal biopsy revealed LN with RPGN features. Despite aggressive treatment with corticosteroids and cyclophosphamide, the patient’s condition rapidly deteriorated, leading to respiratory distress and intensive care unit (ICU) admission. He ultimately succumbed to his illness, underscoring the unpredictable and severe nature of RPGN in LN. This case highlights the importance of early diagnosis and intensive management to prevent rapid disease progression and improve patient outcomes.

Analytic Challenges in Clinical Trials of Early Alzheimer’s Disease

Background: The heavily right-skewed data seen in recently reported Alzheimer’s disease (AD) clinical trials influenced treatment contrasts when data were analyzed via the typical mixed-effects model for repeated measures (MMRM). Methods: An MMRM analysis similar to what is commonly used in AD clinical trials was compared versus robust regression (RR) and the non-parametric Hodges–Lehman estimator (HL). Results: Results in simulated data patterned after AD trials showed that imbalance across treatment arms in the number of patients in the extreme right tail (those with rapid disease progression) frequently occurred. Each analysis method controlled Type I error at or below the nominal level. The RR analysis yielded smaller standard errors and more power than MMRM and HL. In data sets with appreciable imbalance in the number of rapid progressing patients, MMRM results favored the treatment arm with fewer rapid progressors. Results from HL showed the same trend but to a lesser degree. Robust regression yielded similar results regardless of the ratio of rapid progressors. Conclusions: Although more research is needed over a wider range of scenarios, it should not be assumed that MMRM is the optimal approach for trials in early Alzheimer’s disease.

Quantitative detection of miR-25 for early diagnosis, postoperative assessment and TNM staging of pancreatic cancer

Objectives: Pancreatic cancer is one of the most common malignant tumors of the digestive tract. Due to its strong concealment and rapid disease progress, it is characterized by high mortality and low cure rate. Current research focuses on screening high-risk populations, preventing the occurrence of pancreatic cancer and developing imaging technology and tumor markers for early diagnosis. This study aimed to investigate the absolute quantitative detection of microRNA-25 (miR-25) and reveal its quantitative changes in the treatment of pancreatic cancer. We compared serum miR-25 level between pancreatic cancer patients and other tumor patients, especially those with gastrointestinal cancer, to provide further evidence for early diagnosis, differential diagnosis and prognosis of pancreatic cancer. Methods: We collected serum samples from 51 pancreatic cancer patients (including 21 patients with preoperative and postoperative samples), 52 pancreatitis patients, 141 other tumor patients, and 50 healthy individuals from Huashan Hospital, Fudan University. The serum levels of miR-25, Carbohydrate Antigen 19–9 (CA19–9), Carbohydrate Antigen 125 (CA125) and Carcinoembryonic Antigen (CEA) in these populations were measured to analyze the value of miR-25 quantitative detection in the diagnosis, postoperative assessment and Tumor Node Metastasis (TNM) staging of pancreatic cancer. Results: Among the 51 pancreatic cancer patients, 50 cases (98.04 %) showed miR-25 levels above the threshold (3333 copies/μl), while all samples in normal group showed negative. The mean level of miR-25 in serum was 5707.45 ± 361.02 copies/μl. In other tumor groups, 21/141 (14.89 %) patients showed positive results and the mean miR-25 level was 847.09 ± 125.97 copies/μl. Comparing before and after operation in 21 paired samples, the level of miR-25 declined significantly after operation, with an average decline rate of 86.36 %. Conclusions: Serum miR-25 levels were significantly higher in pancreatic cancer patients compared to both normal and other tumor groups and decreased significantly after surgery. In addition, miR-25 showed higher sensitivity than common tumor markers (CA19–9, CA125, CEA) in early diagnosis of pancreatic cancer, and proved to be of significant value in evaluating the effect of surgical treatment.

INVESTIGATING CUDC-101 EFFECT AND MECHANISM OF ACTION AGAINST GLIOBLASTOMA IN VITRO

Abstract AIMS Glioblastoma (GB) has complex pathophysiology, difficult treatment and resultant poor prognosis. Its median survival rate is approximately 15 months. The aggressive nature of GB results in rapid disease progression in 60-70% patients often within 12 weeks. Limited treatment options include maximal safe surgical resection, followed by radiotherapy and temozolomide (TMZ). The blood brain barrier restricts chemotherapeutic entry and increases dosage leading to increased side effects and decreased treatment tolerance. Furthermore, significant disease heterogeneity means reoccurrence is expected in most cases, for which there are no standard treatment routes. This coupled with inefficient treatment with temozolomide (TMZ) due to the blood brain barrier, highlights the requirement for novel treatments. METHOD Histone deacetylases (HDAC) and endothelial growth factor receptor (EGFR) are mutated and upregulated in GB allowing tumour infiltration and proliferation. CUDC-101 is known to target both HDAC and EGFR in other cancers making it a promising therapeutic to trial in GB. Cell viability of U251, T98G and U87MG human cells was measured post-CUDC-101 administration at 24, 48 and 72hrs. SVGp19 embryonic non-cancerous human glial cells were used as a control to establish CUDC-101 preliminary specificity. Targeting another major hallmark of GB, wound healing assays were performed to assess CUDC-101 capacity to inhibit migration. In addition to this, long-term cellular resistance was investigated through clonogenic assays. Western blotting was then used to identify non-/treated expression levels of activated EGFR and acetylated histone H3. Expression levels in non/-treated cells were then visualised with fluorescent microscopy. In addition, flow cytometry was utilised to observe cell cycle changes. RESULTS Overall, results indicate CUDC-101 has a dose-dependent effect on cell viability (long-term and short-term) and migration. Additionally, fluorescent images show treatment does increase histone acetylation and decrease total EGFR. CONCLUSION Future work will solidify these datasets and show changes in activated EGFR and acetylated histone H3 using western blotting.

ALK-positive Anaplastic Large Cell Lymphoma Involving the Spinal Cord

Abstract Introduction/Objective ALK-positive anaplastic large cell lymphoma (ALCL) is a mature T-cell lymphoma that accounts for approximately 3% of non-Hodgkin lymphoma cases in the adult population. Lymph node involvement is most commonly seen, followed by extra-nodal involvement of the skin, soft tissue, and bone. Central nervous system involvement is rare at the time of diagnosis. This case study features a patient with systemic ALK-positive ALCL involving multiple nodal and extra-nodal sites, most notably the spinal cord. Methods/Case Report A 22-year-old female presented to the hospital with worsening back pain accompanied by neurological symptoms. MRI scans of her spine revealed extensive patchy abnormal marrow signal with enhancement of the thoracolumbar vertebrae (T1-L2) and adjacent extension into the spinal canal (T3-T7, T10-L1, L3-S1) and paraspinal soft tissues. A laminectomy of the T5-T7 and T11-T12 levels was performed for surgical decompression, and epidural and paraspinal resection specimens were submitted. These specimens, along with an excisional axillary lymph node biopsy, demonstrated ALK-positive ALCL after comprehensive immunohistochemical studies. In-situ hybridization for EBV was negative. CHOP therapy was initiated, but treatment was complicated by Candidemia and disseminated intravascular coagulation. The patient rapidly declined and passed away less than a month after hospital admission. At autopsy, enlargement of lymph nodes, the left ovary (17.8 g), and spleen (383.6 g) were noted on gross examination. A solid, white-tan lesion (2.1 x 0.9 x 0.8 cm) was found in the left ovary. Necrosis and infiltrates of large, pleomorphic lymphoid cells with irregular nuclear contours and prominent nucleoli were seen on microscopic examination of the spinal cord and leptomeninges, vertebral bone marrow, mediastinal lymph nodes, spleen, and left ovary. Consistent with previously submitted surgical specimens, the viable neoplastic cells stained strongly positive for ALK-1, CD4, and CD30. Results (if a Case Study enter NA) NA Conclusion This case study highlights an atypical presentation of ALCL with a fatal outcome. Given the availability of effective treatment options, prompt diagnosis is crucial to improving survival outcomes. Additional research is necessary to elucidate the clinical and pathological features of ALCL. The differential for back pain is broad, but including this entity for patients with similarly insidious clinical presentations can prevent a delay in diagnosis that allows for rapid progression of disease.

CircMETTL3-156aa reshapes the glycolytic metabolism of macrophages to promote M1 polarization and induce cytokine storms in sHLH

Persistent macrophage activation and cytokine storms are critical causes for the rapid disease progression and high mortality rate of Secondary Hemophagocytic lymphohistiocytosis (sHLH). Identification of key regulatory factors that govern the activation of macrophages is vital. Plasma exosomal circular RNAs (circRNAs) are considered important biomarkers and potential therapeutic targets for various diseases, however, their function in sHLH is still unclear. In this study, we demonstrated for the first time that circMETTL3, derived from METTL3, is upregulated in sHLH patient plasma exosomes, which may plays an important role in the diagnosis of sHLH. Significantly, we also revealed that a novel peptide encoded by circMETTL3, METTL3-156aa, is an inducer of M1 macrophage polarization, which is responsible for the development of cytokine storms during sHLH. We then identified that METTL3-156aa binding with lactate dehydrogenase A (LDHA) and promotes M1 macrophage polarization by enhancing macrophage glycolysis. Additionally, the glycolysis metabolite lactate upregulates the cleavage factor SRSF10 expression by lactylation. This results in increased splicing of the pre-METTL3 mRNA, leading to an enchance in the production of cirMETTL3. Therefore, our results suggest that the circMETTL3/METTL3-156aa/LDHA/Lactate/SRSF10 axis forms a positive feedback loop and may be a novel therapeutic target for the treatment of sHLH.

Allogeneic CAR-T cells for cancer immunotherapy.

Autologous chimeric antigen receptor (CAR)-modified T (CAR-T) cell therapy has displayed high efficacy in the treatment of hematological malignancies. Up to now, 11 autologous CAR-T cell products have been approved for the management of malignancies globally. However, the application of autologous CAR-T cell therapy has many individual limitations, long time-consuming, highly cost, and the risk of manufacturing failure. Indeed, some patients would not benefit from autologous CAR-T cell products because of rapid disease progression. Allogeneic CAR-T cells especially universal CAR-T (U-CAR-T) cell therapy are superior to these challenges of autologous CAR-T cells. In this review, we describe basic study and clinical trials of U-CAR-T cell therapeutic methods for malignancies. In addition, we summarize the problems encountered and potential solutions.

Spinal Diffuse Midline Glioma H3 K27M-Altered: Report of a Rare Tumor with Extracranial Skeletal Metastases and Review of Literature.

Diffuse midline glioma, H3 K27-altered is a rare and aggressive pediatric brain tumor with a grim prognosis. Diffuse midline glioma is characterized by specific molecular alterations, including H3 K27 mutations, and involves deep midline structures such as the brainstem, cerebellum, spinal cord, and thalamus. These tumors present with a classic triad of symptoms and have limited surgical options due to their challenging locations. Extra-neural metastases are an unusual occurrence in diffuse midline glioma and have been rarely described. Here we report a 17-year-old girl with spinal diffuse midline glioma, H3 K27M-mutant, who presented with multiple metastatic osseous lesions confirmed on biopsy of the thoracic vertebral lesion. Due to the rapid disease progression, the patient was recommended palliative therapy. Extra-neural metastases in diffuse midline glioma are rare, with only 16 reported patients, and no standard therapy exists. An accurate and early diagnosis is necessary to develop a personalized plan of treatment. Further research is needed to gain insights into the molecular pathology of diffuse midline glioma, H3 K27-altered, and improve the quality of life and the outcome of patients with this deadly disease.