Anterior lamellar corneoscleral keratoplasty for the management of corneal thinning following treatment with mitomycin-C and interferon to treat highly suspected ocular surface squamous neoplasia: a case report

ABSTRACT A patient presented with corneoscleral thinning five months after the treatment of suspected ocular squamous surface neoplasia with mitomycin-C and interferon. For tectonic and aesthetic purposes, we decided to perform lamellar corneoscleral transplantation. The approach used established new tectonic support and corneal homeostasis. This technique might be an option in similar cases.

Evaluation of perioperative pachymetry of thin corneas during corneal crosslinking using hypo-osmolar riboflavin and hydroxypropyl methylcellulose

ABSTRACT Purpose: This study aimed to analyze variations in intraoperative corneal thickness during corneal cross-linking in patients with keratoconus and to investigate its possible correlation with presurgical maximal keratometry (Kmax) and pachymetry. Methods: This was a prospective case series. We used a method similar to the Dresden protocol, with the application of hydroxypropyl methylcellulose 0.1% hypo-osmolar riboflavin in corneas between 330 and 400 µm after epithelium removal. Corneal thickness was measured using portable calipers before and immediately after epithelium removal, and 30 and 60 min after the procedure. Results: The 30 patients in this study were followed up for one year. A statistically significant difference was observed in pachymetry values during the intraoperative period (p<0.0001) and an increase of 3.05 µm (95%C1: 0.56-5.54) for each diopter was seen after epithelium removal (p0.019). We found an average Kmax difference of —2.12 D between men and women (p0.013). One year after treatment, there was a statistically significant reduction in pachymetry (p<0.0001) and Kmax (p0.0170) values. Conclusions: A significant increase in pachymetry measurements was seen during the procedure, and most patients showed a regression in Kmax and pachymetry values one year after surgery.

Recent advances in the development and clinical application of miRNAs in infectious diseases.

In the search for new biomarkers and therapeutic targets for infectious diseases, several molecules have been investigated. Small RNAs, known as microRNAs (miRs), are important regulators of gene expression, and have emerged as promising candidates for these purposes. MiRs are a class of small, endogenous non-coding RNAs that play critical roles in several human diseases, including host-pathogen interaction mechanisms. Recently, miRs signatures have been reported in different infectious diseases, opening new perspectives for molecular diagnosis and therapy. MiR profiles can discriminate between healthy individuals and patients, as well as distinguish different disease stages. Furthermore, the possibility of assessing miRs in biological fluids, such as serum and whole blood, renders these molecules feasible for the development of new non-invasive diagnostic and prognostic tools. In this manuscript, we will comprehensively describe miRs as biomarkers and therapeutic targets in infectious diseases and explore how they can contribute to the advance of existing and new tools. Additionally, we will discuss different miR analysis platforms to understand the obstacles and advances of this molecular approach and propose their potential clinical applications and contributions to public health.

Preventive and therapeutic effects of a super-multivalent sialylated filamentous bacteriophage against the influenza virus.

The resurgence of influenza viruses as a significant global threat emphasizes the urgent need for innovative antiviral strategies beyond existing treatments. Here, we present the development and evaluation of a novel super-multivalent sialyllactosylated filamentous phage, termed t-6SLPhage, as a potent entry blocker for influenza A viruses. Structural variations in sialyllactosyl ligands, including linkage type, valency, net charge, and spacer length, were systematically explored to identify optimal binding characteristics against target hemagglutinins and influenza viruses. The selected SLPhage equipped with optimal ligands, exhibited exceptional inhibitory potency in in vitro infection inhibition assays. Furthermore, in vivo studies demonstrated its efficacy as both a preventive and therapeutic intervention, even when administered post-exposure at 2 days post-infection, under 4 lethal dose 50% conditions. Remarkably, co-administration with oseltamivir revealed a synergistic effect, suggesting potential combination therapies to enhance efficacy and mitigate resistance. Our findings highlight the efficacy and safety of sialylated filamentous bacteriophages as promising influenza inhibitors. Moreover, the versatility of M13 phages for surface modifications offers avenues for further engineering to enhance therapeutic and preventive performance.

A polymer nanogel-based therapeutic nanovaccine for prophylaxis and direct treatment of tumors via a full-cycle immunomodulation.

Construction of a cancer nanovaccine that can simultaneously activate immune cells and exert efficient tumor treatment still remains a challenge. Herein, we showcase a proof-of-concept demonstration of an advanced therapeutic nanovaccine formulation based on poly(N-vinylcaprolactam) nanogels (NGs) which were loaded with manganese dioxide (MnO2), the sonosensitizer chlorin e6 (Ce6), and the immune adjuvant cyclic GMP-AMP (cGAMP). The gels were furthermore coated with apoptotic cancer cell membranes (AM). On the one hand, the AM promoted the recognition of NGs by antigen presenting cells (APCs) in lymph nodes due to their enhanced immunogenicity, then the loaded Mn and cGAMP could mature APCs via stimulator of interferon genes (STING) activation for triggering immunity to prevent tumor growth. On the other hand, the NGs could selectively release Mn2+ for hydroxyl radical production and Ce6 to generate single oxygen under ultrasound irradiation of tumors, respectively, thereby exerting local chemodynamic/sonodynamic therapy to induce immunogenic cell death (ICD). Moreover, the Mn2+ could also activate STING in tumors to synergize with ICD for potentiated immune responses. Overall, the biomimetic NG-based therapeutic nanovaccine could directly evoke immune system, and also conduct local tumor treatment to further activate ICD, thus realizing a full-cycle immunomodulation (tumor killing for ICD/antigen production, and tumor cells/APCs immune activation) to tackle bilateral tumor growth.

Gastrointestinal endoscopy training in the United States: Program structure and competence assessment.

The general principles of gastrointestinal endoscopy training in the United States were formulated and summarized more than a decade ago and the principles have been consistent until now. To summarize, trainees should be prepared to (i) appropriately recommend endoscopic procedures as indicated by the findings of the consultative evaluation, with an explicit understanding of accepted specific indications, contraindications, and diagnostic/therapeutic alternatives, (ii) perform procedures safely, completely, and expeditiously, including possessing a thorough understanding of the principles of conscious sedation/analgesia techniques, the use of anesthesia-assisted sedation where appropriate, and pre-procedure clinical assessment and patient monitoring, (iii) correctly interpret endoscopic findings and integrate them into medical or endoscopic therapy, (iv) identify risk factors for each procedure, understand how to minimize each, and recognize and appropriately manage complications when they occur, (v) acknowledge the limitations of endoscopic procedures and personal skills and know when to request help, and (vi) understand the principles of quality measurement and improvement. This article provides an overview of the endoscopy training system and structure, evaluation scheme, and competence and credentialing process in the United States.

Hipotermia terapéutica: estudio descriptivo de una cohorte de 10 años en un hospital público de alta complejidad / Therapeutic hypothermia: A descriptive, cohort study conducted over 10 years at a tertiary care public hospital

Introducción. La hipotermia terapéutica (HT) reduce el riesgo de muerte o discapacidad en niños con encefalopatía hipóxico-isquémica (EHI) moderada-grave. Objetivo. Describir una población de pacientes con EHI que requirió HT y su evolución hasta el alta hospitalaria. Población y métodos. Estudio descriptivo de cohorte retrospectivo. Se analizaron todos los pacientes que ingresaron a HT entre 2013 y 2022. Se evaluaron datos epidemiológicos, clínicos, de monitoreo, tratamiento, estudios complementarios y condición al alta. Se compararon los factores de riesgo entre pacientes fallecidos y sobrevivientes, y de estos, los que requirieron necesidades especiales al alta (NEAS). Resultados. Se incluyeron 247 pacientes. Mortalidad: 11 %. Evento centinela más frecuente: período expulsivo prolongado (39 %). Inicio del tratamiento: mediana 5 horas de vida. Convulsiones: 57 %. Eritropoyetina intravenosa: 66,7 %. Patrón anormal de monitoreo de función cerebral: 52 %. Normalización del monitoreo: mediana 24 horas. Resonancia magnética patológica: 42 %. Variables predictoras de mortalidad: Sarnat y Sarnat grave, y ecografía patológica al ingreso. Conclusión. La mortalidad global fue del 11 %. Las derivaciones aumentaron en forma más evidente a partir del año 2018. El horario de inicio de HT fue más tardío que en reportes anteriores. Los signos neurológicos de gravedad según la escala de Sarnat y Sarnat y la ecografía cerebral basal patológica fueron predictores independientes de mortalidad al alta. Los pacientes con NEAS presentaron normalización del trazado del electroencefalograma de amplitud integrada más tardío. El hallazgo más frecuente en la resonancia fue la afectación de los ganglios basales. No se encontraron diferencias clínicas ni de complicaciones estadísticamente significativas entre los pacientes que recibieron eritropoyetina.

Introduction. Therapeutic hypothermia (TH) reduces the risk of death or disability in children with moderate to severe hypoxic ischemic encephalopathy (HIE). Objective. To describe a population of patients with HIE that required TH and their course until discharge. Population and methods. Retrospective, descriptive, cohort study. All patients admitted to TH between 2013 and 2022 were studied. Epidemiological, clinical, monitoring, and treatment data were assessed, together with supplementary tests and condition at discharge. Risk factors were compared between deceased patients and survivors; and, among the latter, those requiring special healthcare needs (SHCN) at discharge. Results. A total of 247 patients were included. Mortality: 11%. Most common sentinel event: prolonged second stage of labor (39%). Treatment initiation: median of 5 hours of life. Seizures: 57%. Intravenous erythropoietin: 66.7%. Abnormal pattern in brain function monitoring: 52%. Normalization of monitoring: median of 24 hours. Pathological magnetic resonance imaging: 42%. Predictor variables of mortality: severe Sarnat and Sarnat staging and pathological ultrasound upon admission. Conclusion. The overall mortality rate was 11%. Referrals increased more markedly since 2018. The time of TH initiation was later than in previous reports. Severe neurological signs as per the Sarnat and Sarnat staging and a pathological baseline cranial ultrasound were independent predictors of mortality at discharge. Patients with SHCN at discharge showed a normalized tracing in the amplitude-integrated electroencephalography performed later. The most common finding in the magnetic resonance imaging was basal ganglia involvement. No statistically significant differences were observed in terms of clinical characteristics or complications among patients who received erythropoietin.

Nrf2 and Ferroptosis: Exploring Translational Avenues for Therapeutic Approaches to Neurological Diseases.

Nrf2, a crucial protein involved in defense mechanisms, particularly oxidative stress, plays a significant role in neurological diseases (NDs) by reducing oxidative stress and inflammation. NDs, including Alzheimer's, Parkinson's, Huntington's, amyotrophic lateral sclerosis, stroke, epilepsy, schizophrenia, depression, and autism, exhibit ferroptosis, iron-dependent regulated cell death resulting from lipid and iron-dependent reactive oxygen species (ROS) accumulation. Nrf2 has been shown to play a critical role in regulating ferroptosis in NDs. Age-related decline in Nrf2 expression and its target genes (HO-1, Nqo-1, and Trx) coincides with increased iron-mediated cell death, leading to ND onset. The modulation of iron-dependent cell death and ferroptosis by Nrf2 through various cellular and molecular mechanisms offers a potential therapeutic pathway for understanding the pathological processes underlying these NDs. This review emphasizes the mechanistic role of Nrf2 and ferroptosis in multiple NDs, providing valuable insights for future research and therapeutic approaches.

Ceftobiprole and Cefiderocol for Patients on Extracorporeal Membrane Oxygenation: The Role of Therapeutic Drug Monitoring.

INTRODUCTION: Limited data exist on therapeutic ranges for newer antimicrobials in the critically ill, with few pharmacokinetic studies including patients undergoing renal replacement therapy or extracorporeal membrane oxygenation (ECMO). CASE REPRESENTATION: These interventions can potentially alter the pharmacokinetic profile of antibiotics, resulting in therapeutic failures, antimicrobial resistance, or increased toxicity. In this report, we present two ECMO patients treated with cefiderocol and ceftobiprole, where therapeutic drug monitoring (TDM) aided in the successful treatment of severe infections. Antibiotic trough concentrations in both cases were consistent with previously reported therapeutic levels in critically ill and ECMO patients, meeting minimal inhibitory concentrations recommended by the European Committee on Antimicrobial Susceptibility Testing for the respective pathogens. CONCLUSION: Treatment might be suboptimal if doses are not adjusted based on physicochemical properties and extracorporeal support. In an era marked by highly resistant pathogens, these cases highlight the importance of timely access to real-time TDM for optimizing and individualizing antimicrobial treatment.

Biomarkers and Novel Therapies of Diabetic Neuropathy: An Updated Review.

Diabetic neuropathy is a persistent consequence of the biochemical condition known as diabetes mellitus. As of now, the identification and management of diabetic neuropathy continue to be problematic due to problems related to the safety and efficacy of existing therapies. This study examines biomarkers, molecular and cellular events associated with the advancement of diabetic neuropathy, as well as the existing pharmacological and non-pharmacological treatments employed. Furthermore, a holistic and mechanism-centric drug repurposing approach, antioxidant therapy, Gene and Cell therapies, Capsaicin and other spinal cord stimulators and lifestyle interventions are pursued for the identification, treatment and management of diabetic neuropathy. An extensive literature survey was done on databases like PubMed, Elsevier, Science Direct and Springer using the keywords "Diabetic Neuropathy", "Biomarkers", "Cellular and Molecular Mechanisms", and "Novel Therapeutic Targets".Thus, we may conclude that non-pharmacological therapies along with palliative treatment, may prove to be crucial in halting the onset of neuropathic symptoms and in lessening those symptoms once they have occurred.

Herbal Remedies for Hepatic Inflammation: Unravelling Pathways and Mechanisms for Therapeutic Intervention.

Inflammation is a universal response of mammalian tissue to harm, comprising reactions to injuries, pathogens, and foreign particles. Liver inflammation is commonly associated with hepatocyte necrosis and apoptosis. These forms of liver cell injury initiate a sequence of events independent of the etiological basis for the inflammation and can result in hepatic disorders. It is also common for liver cancer. This review fundamentally focuses on the molecular pathways involved in hepatic inflammation. This review aims to explore the molecular pathways involved in hepatic inflammation, focusing on arachidonic acid, NF-κB, MAPK, PI3K/Akt, and JAK/STAT pathways. It investigates active compounds in herbal plants and their pharmacological characteristics. The review proposes a unique therapeutic blueprint for managing hepatic inflammation and diseases by modifying these pathways with herbal remedies.

Neuroimmune Interactions in Stress and Depression: Exploring the Molecular and Cellular Mechanisms within the Neuroinflammation-depression Nexus.

BACKGROUND: The escalating global burden of stress and depression underscores an urgent need to unravel their complex interrelationships and underlying mechanisms. This investigation delves into the intricate dynamics between stress and depression, spotlighting the Neuroimmunoinflammatory Stress Model (NIIS), which elucidates the pivotal role of cellular and molecular pathways in mediating these conditions. METHODS: Through an exhaustive review of literature spanning epidemiology, neurobiology, and psychoneuroimmunology, this study synthesizes the current understanding of stress and depression. It accentuates the definitional scopes, interplay, and intricacies of the NIIS model, which integrates neuroimmune-inflammatory responses into the conceptual framework of the stress-depression interaction. RESULTS: By identifying stress as a multifactorial reaction to perceived adversities and depression as a manifestation of prolonged stress exposure, our analysis foregrounds the NIIS model. This paradigmatic model reveals the transition from normal stress responses to pathological neuroinflammatory pathways, highlighting neurotransmitter imbalances, disruptions in neuronal and glial homeostasis, and ensuing low-grade neuroinflammation as key factors in the pathogenesis of depression under chronic stress conditions. The NIIS model identifies prolonged cellular pro-inflammatory stress of neurons and microglia as a fundamental pathological subsystem of many neuropsychiatric disorders. In turn, neuroinflammation and associated neurodegenerative processes are complications of chronic psychoemotional stress, which can clinically manifest as depression. CONCLUSIONS: The NIIS model views depression as the terminal stage of chronic stress, pathogenetically linked to latent neuroinflammation. This insight not only advances our understanding of their etiopathogenesis but also paves the way for developing precise therapeutic interventions.

"Dear Newly Graduated Physical Therapist": A Direct Message Containing Advice We Wish We Had Received.

SYNOPSIS: This Viewpoint provides practical guidance for early-career musculoskeletal clinicians who are navigating the complexities of clinical practice. Key themes are embracing uncertainty, seeing and treating the whole person, avoiding judgemental mindsets, embracing shared decision-making, focusing on building strong therapeutic relationships and finding a work-related niche that resonates with one's own passions and strengths. We encourage clinicians to consume information carefully in an era of social media health influencers, and suggest ways of accurately identifying reliable sources of information. We do not presume to inoculate against all challenges that clinicians will encounter. Instead, we strive to help early-career clinicians navigate potential friction points in clinic and research based on our collective experience. J Orthop Sports Phys Ther 2024;54(10):621-624. Epub 17 September 2024. doi:10.2519/jospt.2024.12676.

Mitochondrial ribosomal proteins in metastasis and their potential use as prognostic and therapeutic targets.

The mitochondrion is an essential cell organelle known as the powerhouse of the cell. Mitochondrial ribosomal proteins (MRPs) are nuclear encoded, synthesised in the cytoplasm but perform their main functions in the mitochondria, which includes translation, transcription, cell death and maintenance. However, MRPs have also been implicated in cancer, particularly advanced disease and metastasis across a broad range of cancer types, where they play a central role in cell survival and progression. For some, their altered expression has been investigated as potential prognostic markers, and/or therapeutic targets, which is the focus of this review. Several therapies targeting MRPs are currently approved by the Food and Drug Administration and the European Medicines Agency for use in other diseases, revealing the opportunity for repurposing their use in advanced and metastatic cancer. Herein, we review the evidence supporting key MRPs as molecular drivers of advanced disease in multiple cancer types. We also highlight promising avenues for future use of MRPs as precision targets in the treatment of late-stage cancers for which there are currently very limited effective treatment options.

MMP7, Regulated by c-Jun, is Involved in Oral Squamous Cell Carcinoma and Associated with Cancer-Related Fibroblasts Infiltration.

OBJECTIVE: This study aimed to analyze the expression of Matrix Metalloproteinase 7 (MMP7) and molecular mechanism at the Transcription Factor (TF) level in Oral Squamous Cell Carcinoma (OSCC). METHODS: MMP7 expression was preliminarily explored in Head and Neck Squamous Cell Car-cinoma (HNSCC) in the online database, followed by functional analysis and prediction of TF of MMP7. IHC was employed to detect MMP7 levels in OSCC samples. SCC9 and 293T cells were used to explore the transcriptional and regulatory effects of predicted TF on MMP7 by reporter double luciferase assay, RT-qPCR, western blotting, and cellular immunofluorescence. Transwell and TUNEL were employed to detect the migration and apoptosis. RESULTS: MMP7 was significantly up-regulated in HNSCC and OSCC tissues. Moreover, MMP7 was positively correlated with CAFs and significantly enriched in the signaling pathway of RNA degradation. The c-Jun pathway was also up-regulated in OSCC tissues, and predicted to be optimal TF of MMP7 with positive regulatory relationship. In OSCC, silencing and over-expression of c-Jun significantly decreased and increased the level of MMP7. Meanwhile, c-Jun affected the behavior of SCC9 cells, which showed that after c-Jun gene silencing, the ability of cell migration was weakened, while apoptosis was enhanced. When c-Jun gene was overexpressed, the migration ability was enhanced, but apoptosis was not significantly affected. CONCLUSION: MMP7 has been proven to be a key protein in the development of OSCC, and has the potential to become a biological marker and therapeutic target. It has been found that c-Jun could bind to the MMP7 promoter region, and the silencing or overexpression of c-Jun can positively regulate the expression of MMP7.

Chemistry/structural biology of psychedelic drugs and their receptor(s).

This brief review highlights some of the structure-activity relationships of classic serotonergic psychedelics. In particular, we discuss structural features of three chemotypes: phenethylamines, ergolines and certain tryptamines, which possess psychedelic activity in humans. Where they are known, we point out the underlying molecular mechanisms utilized by each of the three chemotypes of psychedelic molecules. With a focus on the 5-HT2A receptor subtype, a G-protein coupled receptor known to be the primary target of psychedelics, we refer to several X-ray and cryoEM structures, with a variety of ligands bound, to illustrate the underlying atomistic basis for some of the known pharmacological observations of psychedelic drug actions.

Nanocarriers for Cannabinoid Delivery: Enhancing Therapeutic Potential.

Medical cannabis has potential therapeutic benefits in managing pain, anxiety, depression, and neurological and movement disorders. Phytocannabinoids derived from the cannabis plant are responsible for their pharmacological and therapeutic properties. However, the complexity of cannabis components, especially cannabinoids, poses a challenge to effective medicinal administration. Even with the increasing acceptance of cannabis-based medicines, achieving consistent bioavailability and targeted distribution remains difficult. Conventional administration methods are plagued by solubility and absorption problems requiring innovative solutions. After conducting a thorough review of research papers and patents, it has become evident that nanotechnology holds great promise as a solution. The comprehensive review of 36 research papers has yielded valuable insights, with 7 papers reporting enhanced bioavailability, while others have focused on improvements in release, solubility, and stability. Additionally, 19 patents have been analyzed, of which 7 specifically claim enhanced bioavailability, while the remaining patents describe various formulation methods. These patents outline effective techniques for encapsulating cannabis using nanocarriers, effectively addressing solubility and controlled release. Studies on the delivery of cannabis using nanocarriers focus on improving bioavailability, prolonging release, and targeting specific areas. This synthesis highlights the potential of nanotechnology to enhance cannabis therapies and pave the way for innovative interventions and precision medicine.

A Novel Mitochondrial-Related Gene Signature for the Prediction of Prognosis and Therapeutic Efficacy in Lower-Grade Glioma.

Lower-grade glioma (LGG) is a common primary brain tumor with a highly heterogeneous clinical presentation, and its prognosis cannot be accurately predicted by current histopathology. It has been found that mitochondria play an important role in hypoxia, angiogenesis, and energy metabolism in glioma, and mitochondrial function may have an important impact on LGG prognosis. The goal of this study was to develop a novel prognostic model based on Mitochondrial-related genes (MRGs). We first analyzed the somatic alterations profiles of MRGs in patients with LGG and found that somatic alterations were common in LGG and correlated with prognosis. Using RNA-seq data from TCGA and CGGA, 12 prognosis-related MRGs were identified to construct a mitochondrial activation score (MiAS) model by combining univariate regression and LASSO regression analysis. The model and nomogram were evaluated using the area under the ROC curve with AUC = 0.910. The model was closely correlated with the clinical characteristics of LGG patients and performed well in predicting the prognosis of LGG patients with significantly shorter overall survival (OS) time in the high-MiAS group. GSVA and GSEA results showed that oxidative stress, pro-cancer, and immune-related pathways were significantly enriched in the high-MiAS group. CIBERSORT results showed that MiAS was significantly associated with immune cell infiltration in LGG. Macrophage M1 and follicular helper T cells had increased infiltration in the high-MiAS group. TIDE predicted a better immunotherapy outcome in patients in the low-MiAS group. Finally, using data from the CTRPv2 and GDSC2 datasets to assess chemotherapy response in LGG, it was predicted that the chemotherapeutic agents AZD6482, MG-132, and PLX-4720 might be potential agents for patients in the high-MiAS group of LGG. In addition, we performed in vitro experiments and found that knockdown of OCIAD2 expression reduced the abilities of glioma cells to proliferate, migrate, and invade. In contrast, overexpression of OCIAD2 enhanced these abilities of glioma cells. This study found that MRGs were correlated with LGG patient prognosis, which is expected to provide new treatment strategies for LGG patients with different MiAS.

Identifying therapeutic targets for primary ovarian insufficiency through integrated genomic analyses.

BACKGROUND: Primary ovarian insufficiency (POI) is a disorder characterized by the premature decline in ovarian function, leading to significant fertility and health impacts on women under 40. The unclear etiology of POI hinders the development of effective treatments, highlighting the need for novel therapeutic targets. METHODS: This study employed genome-wide association analysis (GWAS) integrated with expression quantitative trait loci (eQTL) data from the GTEx and eQTLGen databases. Mendelian randomization (MR) and colocalization analyses were conducted to investigate causal relationships between genetic variants and POI and to identify potential therapeutic targets. RESULTS: We identified 431 genes with available index cis-eQTL signals, of which four (HM13, FANCE, RAB2A, and MLLT10) were significantly associated with POI. Colocalization analysis revealed strong evidence for FANCE and RAB2A, indicating their potential as therapeutic targets. Subsequent druggability assessments identified FANCE and RAB2A as promising candidates for POI treatment, supported by their involvement in DNA repair and autophagy regulation, respectively. CONCLUSIONS: Our study establishes a causal link between specific genes and POI, highlighting FANCE and RAB2A as potential drug targets. These findings provide a foundation for future research and therapeutic development, aiming to improve outcomes for women with POI. Validation in further trials is necessary to confirm these potential targets.

Activation of AMPK/SIRT1/FOXO3a signaling by BMS-477118 (saxagliptin) mitigates chronic colitis in rats: uncovering new anti-inflammatory and antifibrotic roles.

Ulcerative colitis (UC) is a debilitating chronic disease marked by persistent inflammation and intestinal fibrosis. Despite the availability of various treatments, many patients fail to achieve long-term remission, underscoring a significant unmet therapeutic need. BMS-477118, a reversible inhibitor of dipeptidyl peptidase 4 (DPP4), has demonstrated anti-inflammatory properties in preclinical and clinical studies with minimal adverse effects compared to other antidiabetic agents. However, the potential benefits of BMS-477118 in chronic UC have not yet been explored. In this study, we aimed to investigate the effects of BMS-477118 in rats subjected to chronic dextran sodium sulfate (DSS) administration. Our findings indicate that BMS-477118 activates the interconnected positive feedback loop involving AMPK, SIRT1, and FOXO3a, improving histological appearance in injured rat colons. BMS-477118 also reduced fibrotic changes associated with the chronic nature of the animal model, alleviated macroscopic damage and disease severity, and improved the colon weight-to-length ratio. Additionally, BMS-477118 prevented DSS-induced weight loss and enhanced tight junction proteins. These effects, in conjunction with reduced oxidative stress and its potential anti-inflammatory, antiapoptotic, and autophagy-inducing properties, fostered prolonged survival in rats with chronic UC. To conclude, BMS-477118 has the potential to activate the AMPK/SIRT1/FOXO3a signaling pathway in inflamed colons. These results suggest that the AMPK/SIRT1/FOXO3a pathway could be a new therapeutic target for UC. Further research is mandatory to explore the therapeutic possibilities of this pathway. Additionally, continued studies on the therapeutic potential of BMS-477118 and other DPP4 inhibitors are promising for creating new treatments for various conditions, including UC in diabetic patients.