Harmine and exendin-4 combination therapy safely expands human ß cell mass in vivo in a mouse xenograft system.

Five hundred thirty-seven million people globally suffer from diabetes. Insulin-producing ß cells are reduced in number in most people with diabetes, but most individuals still have some residual ß cells. However, none of the many diabetes drugs in common use increases human ß cell numbers. Recently, small molecules that inhibit dual tyrosine-regulated kinase 1A (DYRK1A) have been shown to induce immunohistochemical markers of human ß cell replication, and this is enhanced by drugs that stimulate the glucagon-like peptide 1 (GLP1) receptor (GLP1R) on ß cells. However, it remains to be demonstrated whether these immunohistochemical findings translate into an actual increase in human ß cell numbers in vivo. It is also unknown whether DYRK1A inhibitors together with GLP1R agonists (GLP1RAs) affect human ß cell survival. Here, using an optimized immunolabeling-enabled three-dimensional imaging of solvent-cleared organs (iDISCO+) protocol in mouse kidneys bearing human islet grafts, we demonstrate that combination of a DYRK1A inhibitor with exendin-4 increases actual human ß cell mass in vivo by a mean of four- to sevenfold in diabetic and nondiabetic mice over 3 months and reverses diabetes, without alteration in human α cell mass. The augmentation in human ß cell mass occurred through mechanisms that included enhanced human ß cell proliferation, function, and survival. The increase in human ß cell survival was mediated, in part, by the islet prohormone VGF. Together, these findings demonstrate the therapeutic potential and favorable preclinical safety profile of the DYRK1A inhibitor-GLP1RA combination for diabetes treatment.

Unlocking nature's arsenal: Nanotechnology for targeted delivery of venom toxins in cancer therapy.

AIM: The aim of the present review is to shed light on the nanotechnological approaches adopted to overcome the shortcomings associated with the delivery of venom peptides which possess inherent anti-cancer properties. BACKGROUND: Venom peptides although have been reported to demonstrate anti-cancer effects, they suffer from several disadvantages such as in vivo instability, off-target adverse effects, limited drug loading and low bioavailability. This review presents a comprehensive compilation of different classes of nanocarriers while underscoring their advantages, disadvantages and potential to carry such peptide molecules for in vivo delivery. It also discusses various nanotechnological aspects such as methods of fabrication, analytical tools to assess these nanoparticulate formulations, modulation of nanocarrier polymer properties to enhance loading capacity, stability and improve their suitability to carry toxic peptide drugs. CONCLUSION: Nanotechnological approaches bear great potential in delivering venom peptide-based molecules as anticancer agents by enhancing their bioavailability, stability, efficacy as well as offering a spatiotemporal delivery approach. However, the challenges associated with toxicity and biocompatibility of nanocarriers must be duly addressed. PERSPECTIVES: The everlasting quest for new breakthroughs for safer delivery of venom peptides in human subjects is fuelled by unmet clinical needs in the current landscape of chemotherapy. In addition, exhaustive efforts are required in obtaining and purifying the venom peptides followed by designing and optimizing scale up technologies.

Toxin-derived peptides: An unconventional approach to alleviating cerebral stroke burden and neurobehavioral impairments.

Cerebral stroke is a pressing global health concern, ranking as the second leading cause of mortality and resulting in persistent neurobehavioral impairments. Cerebral strokes, triggered by various embolic events, initiate complex signaling pathways involving neuroexcitotoxicity, ionic imbalances, inflammation, oxidative stress, acidosis, and mitochondrial dysfunction, leading to programmed cell death. Currently, the FDA has approved tissue plasminogen activator as a relatively benign intervention for cerebral stroke, leaving a significant treatment gap. However, a promising avenue has emerged from Earth's toxic creatures. Animal venoms harbor bioactive molecules, particularly neuropeptides, with potential in innovative healthcare applications. These venomous components, affecting ion channels, receptors, and transporters, encompass neurochemicals, amino acids, and peptides, making them prime candidates for treating cerebral ischemia and neurological disorders. This review explores the composition, applications, and significance of toxin-derived peptides as viable therapeutic agents. It also investigates diverse toxins from select venomous creatures, with the primary objective of shedding light on current stroke treatments and paving the way for pioneering therapeutic strategies capable of addressing neurobehavioral deficits.

Animal Venoms as Potential Source of Anticonvulsants.

Epilepsy affects millions of people worldwide, and there is an urgent need to develop safe and effective therapeutic agents. Animal venoms contain diverse bioactive compounds like proteins, peptides, and small molecules, which may possess medicinal properties against epilepsy. In recent years, research has shown that venoms from various organisms such as spiders, ants, bees, wasps, and conus snails have anticonvulsant and antiepileptic effects by targeting specific receptors and ion channels. This review underscores the significance of purified proteins and toxins from these sources as potential therapeutic agents for epilepsy. In conclusion, this review emphasizes the valuable role of animal venoms as a natural resource for further exploration in epilepsy treatment research.

African polyvalent antivenom can maintain pharmacological stability and ability to neutralise murine venom lethality for decades post-expiry: evidence for increasing antivenom shelf life to aid in alleviating chronic shortages.

INTRODUCTION: Antivenom is a lifesaving medicine for treating snakebite envenoming, yet there has been a crisis in antivenom supply for many decades. Despite this, substantial quantities of antivenom stocks expire before use. This study has investigated whether expired antivenoms retain preclinical quality and efficacy, with the rationale that they could be used in emergency situations when in-date antivenom is unavailable. METHODS: Using WHO guidelines and industry test requirements, we examined the in vitro stability and murine in vivo efficacy of eight batches of the sub-Saharan African antivenom, South African Institute for Medical Research polyvalent, that had expired at various times over a period of 30 years. RESULTS: We demonstrate modest declines in immunochemical stability, with antivenoms older than 25 years having high levels of turbidity. In vitro preclinical analysis demonstrated all expired antivenoms retained immunological recognition of venom antigens and the ability to inhibit key toxin families. All expired antivenoms retained comparable in vivo preclinical efficacy in preventing the lethal effects of envenoming in mice versus three regionally and medically important venoms. CONCLUSIONS: This study provides strong rationale for stakeholders, including manufacturers, regulators and health authorities, to explore the use of expired antivenom more broadly, to aid in alleviating critical shortages in antivenom supply in the short term and the extension of antivenom shelf life in the longer term.

Effect of glucagon like peptide-1 receptor agonist exenatide, used as an intracranial pressure lowering agent, on cognition in Idiopathic Intracranial Hypertension.

BACKGROUND: Cognitive function can be affected in conditions with raised intracranial pressure (ICP) such as idiopathic intracranial hypertension (IIH). Drugs used off label to treat raised ICP also have cognitive side effects, underscoring the unmet need for effective therapeutics which reduce ICP without worsening cognition. The Glucagon Like Peptide-1 (GLP-1) receptor agonist, exenatide, has been shown to significantly reduce ICP in IIH, therefore this study aimed to determine the effects of exenatide on cognition in IIH. METHODS: This was an exploratory study of the IIH:Pressure trial (ISTCRN 12678718). Women with IIH and telemetric ICP monitors (n = 15) were treated with exenatide (n = 7) or placebo (n = 8) for 12 weeks. Cognitive function was tested using the National Institute of Health Toolbox Cognitive Battery at baseline and 12 weeks. RESULTS: Cognitive performance was impaired in fluid intelligence ((T-score of 50 = population mean), mean (SD) 37.20 (9.87)), attention (33.93 (7.15)) and executive function (38.07 (14.61)). After 12-weeks there was no evidence that exenatide compromised cognition (no differences between exenatide and placebo). Cognition improved in exenatide treated patients in fluid intelligence (baseline 38.4 (8.2), 12 weeks 52.9 (6.6), p = 0.0005), processing speed (baseline 43.7 (9.4), 12 weeks 58.4 (10.4), p = 0.0058) and episodic memory (baseline 49.4 (5.3), 12 weeks 62.1 (13.2), p = 0.0315). CONCLUSIONS: In patients with raised ICP due to IIH, exenatide, a drug emerging as an ICP lowering agent, does not adversely impact cognition. This is encouraging and has potential to be relevant when considering prescribing choices to lower ICP.

Glucagon-like peptide-1 analogues in monogenic syndromic obesity: Real-world data from a large cohort of Alström syndrome patients.

AIM: To examine the real-world efficacy of glucagon-like peptide-1 receptor agonists (GLP-1 RAs) in monogenic obesity in patients with Alström syndrome (ALMS). METHODS: We screened 72 UK adult patients with ALMS and offered treatment to 34 patients meeting one of the following criteria: body mass index of 25 kg/m2 or higher, insulin resistance, suboptimal glycaemic control on antihyperglycaemic medications or non-alcoholic fatty liver disease. RESULTS: In total, 30 patients, with a mean age of 31 ± 11 years and a male to-female ratio of 2:1, completed 6 months of treatment with GLP-1 RAs either in the form of semaglutide or exenatide. On average, treatment with GLP-1 RAs reduced body weight by 5.4 ± 1.7 (95% confidence interval [CI] 3.6-7) kg and HbA1c by 12 ± 3.3 (95% CI 8.7-15.3) mmol/mol, equating to 6% weight loss (P < .01) and 1.1% absolute reduction in HbA1c (P < .01). Significant improvements were also observed in serum total cholesterol, triglycerides, low-density lipoprotein cholesterol, high-density lipoprotein cholesterol and alanine aminotransferase. The improvement of metabolic variables in our cohort of monogenic syndromic obesity was comparable with data for polygenic obesity, irrespective of weight loss. CONCLUSIONS: Data from our centre highlight the non-inferiority of GLP-1 RAs in monogenic syndromic obesity to the available GLP-1 RA-use data in polygenic obesity, therefore, these agents can be considered as a treatment option in patients with ALMS, as well as other forms of monogenic obesity.

Sustained metabolic benefits of ΔTRTX-Ac1, a tarantula venom-derived peptide, when administered together with exenatide in high-fat fed mice.

AIM: The aim of the present study was to assess the long-term therapeutic efficacy of a recently discovered 28 amino acid peptide, Δ-theraphotoxin-Ac1 (Δ-TRTX-Ac1), originally isolated from venom of the Aphonopelma chalcodes tarantula. Δ-TRTX-Ac has previously been shown to improve pancreatic beta-cell function and suppress appetite. MATERIALS AND METHODS: Δ-TRTX-Ac1 was administered twice daily in high-fat fed (HFF) mice with streptozotocin (STZ)-induced insulin deficiency, namely HFF/STZ mice, for 28 days both alone and in combination with the venom-derived glucagon-like peptide-1 (GLP-1) mimetic, exenatide. RESULTS: Initial pharmacokinetic profiling of ΔTRTX-Ac1 revealed a plasma half-life of 2 h in mice, with ΔTRTX-Ac1 also evidenced in the pancreas 12 h post-injection. Accordingly, HFF-STZ mice received twice-daily injections of Δ-TRTX-Ac1, exenatide or a combination of both peptides for 28 days. As anticipated, HFF/STZ mice presented with hyperglycaemia, impaired glucose tolerance, decreased plasma and pancreatic insulin and disturbed pancreatic islet morphology. Administration of ΔTRTX-Ac1 reduced body weight, improved glucose tolerance and augmented pancreatic insulin content while decreasing glucagon content. Exenatide had similar benefits on body weight and pancreatic hormone content while also reducing circulating glucose. ΔTRTX-Ac1 decreased energy expenditure on day 28 whereas exenatide had no impact. All treatment regimens restored pancreatic islet and beta-cell area towards lean control levels, which was linked to significantly elevated beta-cell proliferation rates. In terms of benefits of combined ΔTRTX-Ac1 and exenatide treatment over individual agents, there was augmentation of glucose tolerance and ambulatory activity with combination therapy, and these mice presented with increased pancreatic glucagon. CONCLUSION: These data highlight the therapeutic promise of ΔTRTX-Ac1 for diabetes, with suggestion that benefits could be enhanced through combined administration with exenatide.

Antiproliferative activity of marine stingray Dasyatis sephenvenom on human cervical carcinoma cell line

Background Venoms comprise mixtures of numerous bioactive compounds that have a wide range of pharmacologic actions. Toxins from venomous animals have attracted the attention of researchers because of their affinity for primary sites responsible for lethality and their efficacy at extremely low concentrations. The venoms of marine stingrays have not been extensively studied and limited data is available on them. The present study aims to evaluate the antiproliferative and biochemical properties of the venom obtained from a species of marine stingray (Dasyatis sephen) on human cervical cancer cell line HeLa.MethodsThe antiproliferative effect of D. sephen venom was determined by MTT assay, and the oxidative stress was determined by lipid peroxidation method along with assessment of changes in the enzymatic and non-enzymatic antioxidant status. We observed intracellular reactive oxygen species (ROS) levels by DCFH-DA method, mitochondrial membrane potential alterations by rhodamine 123 staining and apoptotic morphological changes by acridine orange/ethidium bromide dual staining method.ResultsD. sephen venom enhances lipid peroxidative markers such as thiobarbituric acid reactive substance, conjugated diene, and lipid hydroperoxide in HeLa cell lines. Stingray venom enhances the ROS levels, which is evidenced by the increased 27-diacetyl dichlorofluorescein fluorescence. Further, D. sephen venom treatment altered the mitochondrial membrane potential in HeLa cells. Additionally, we observed increased apoptotic morphological changes in D. sephen venom-treated groups. ConclusionsDasyatis sephen venom exhibits potent antiproliferative effect on HeLa cell line and upon further purification it could be a promising antiproliferative agent.

Exenatide improves type 2 diabetes concomitant with non-alcoholic fatty liver disease / Exenatide melhora o diabetes tipo 2 de ocorrência concomitante com doença hepática gordurosa não alcoólica

OBJECTIVE: To investigate the effects of exenatide on blood glucose, body weight and hepatic enzymes in patients with type 2 diabetes mellitus (T2DM) and concomitant non-alcoholic fatty liver disease (NAFLD). SUBJECTS AND METHODS: One hundred and seventeen patients with T2DM and NAFLD were randomly divided into exenatide group and metformin group. Patients were treated with exenatide and metformin, respectively, for 12 weeks. RESULTS: After 12 weeks of treatment, body weight, body mass index (BMI), waist-to-hip ratio, HbA1c, FPG, 2-h PPG, ALT, AST, γ-GT, and hs-CRP were significantly reduced, and the AST/ALT ratio and adiponectin were markedly increased in both groups. BMI, waist-to-hip ratio, 2-h PPG, ALT, AST, γ-GT, and hs-CRP were markedly lower, and AST/ALT ratio and adiponectin in the exenatide group were dramatically higher than in the metformin group. CONCLUSION: Compared with metformin, exenatide is better to control blood glucose, reduces body weight and improves hepatic enzymes, attenuating NAFLD in patients with T2DM concomitant with NAFLD.

OBJETIVO: Investigar os efeitos do exenatide sobre a glicose sérica, peso corporal e enzimas hepáticas em pacientes com diabetes melito tipo 2 (T2DM) e doença hepática gordurosa não alcoólica (DHGNA). SUJEITOS E MÉTODOS: Um total de 117 pacientes com T2DM e DHGNA foi aleatoriamente separado em dois grupos, um tratado com exenatide e um tratado com metformina. Os pacientes foram tratados por 12 semanas. RESULTADOS: Após 12 semanas de tratamento, o peso corporal, índice de massa corporal (IMC), relação cintura-quadril, HbA1c, FPG, glicose pós-prandial, ALT, AST, γ-GT e proteína C-reativa foram significativamente reduzidos, e a relação AST/ALT e a adiponectina aumentaram marcadamente nos dois grupos. O IMC, relação cintura-quadril, glicose pós-prandial, ALT, AST, γ-GT e proteína C-reativa foram marcadamente menores, e a relação AST/ALT e a adiponectina foram dramaticamente mais altas no grupo tratado com exenatide do que no grupo tratado com metformina. CONCLUSÃO: Comparado com a metformina, o exenatide controla melhor a glicose sérica, reduz o peso corporal e melhora as enzimas hepáticas, atenuando a DHGNA em pacientes com T2DM de ocorrência concomitante com a DHGNA.

Ensayos clínicos de exenatida y su rol en el tratamiento de la diabetes tipo 2 / Exenatide trials for the treatment of type 2 diabetes

La diabetes mellitus tipo 2 es una enfermedad metabólica crónica, frecuente y progresiva, responsable del 90% de los casos de diabetes a nivel mundial. Aproximadamente el 60% de los individuos que padecen este desorden no alcanzan niveles óptimos de hemoglobina glicosilada, a pesar de la disponibilidad de numerosas alternativas terapéuticas. Los dos objetivos más importantes a cumplir en el manejo actual de la diabetes tipo 2 son la capacidad de los agentes antidiabéticos de exhibir eficacia prolongada y la capacidad de preservar la función de las células beta pancreáticas. El efecto incretina se encuentra reducido en pacientes con diabetes tipo 2. Exenatida pertenece a un nuevo grupo de drogas antidiabéticas que mejoran el control de la glucemia en estos pacientes a través de mecanismos fisiológicos glucorregulatorios que mejoran el efecto incretina. Los ensayos clínicos fase III con exenatida demostraron una reducción media de aproximadamente el 1% en los valores de hemoglobina glicosilada. Los datos a largo plazo de estudios de extensión no controlados indican una mejoría sostenida en los niveles de hemoglobina glicosilada y una reducción progresiva del peso luego de 3 años de tratamiento con esta droga. La droga es generalmente bien tolerada y los efectos adversos más frecuentes son los gastrointestinales, con una intensidad leve a moderada. El objetivo de esta revisión es analizar la evidencia publicada hasta la fecha sobre la eficacia y tolerabilidad del tratamiento con exenatida y su rol en el tratamiento de la diabetes tipo 2.

Type 2 diabetes mellitus is a common, chronic and progressive metabolic disorder, which accounts for 90% of diabetes cases worldwide. Approximately 60% of individuals with the disease do not achieve target glycosylated hemoglobin levels, despite the availability of many antidiabetic agents. The two most important needs in the present management of diabetes are the ability of antidiabetic agents to exhibit prolonged efficacy in reducing hyperglycemia and to preserve beta-cell function. The incretin effect appears to be reduced in patients with type 2 diabetes. Exenatide is the first in a novel class of antidiabetic drugs that improves glycemic control in patients with type 2 diabetes through several physiological glucoregulatory mechanisms which improve the incretin effect. Overall, mean glycosylated hemoglobin (HbA1c) reductions achieved in the exenatide phase III clinical trials were in the order of 1%. Long-term data from the uncontrolled open-label extension studies indicate that adjunctive exenatide therapy leads to sustained improvements in HbA1c and progressive weight loss for at least 3 years. The drug is generally well tolerated. The most common adverse events were gastrointestinal in nature and mild to moderate in severity. The objective of this review is to discuss the available published evidence on exenatide therapeutic efficacy and tolerability, and the role of this new drug in the treatment of type 2 diabetes.

Incretin mimetics and dipeptidyl peptidase-4 inhibitors: innovative treatment therapies for type 2 diabetes / Incretinomiméticos e inibidores da dipeptidil peptidase-4: terapias inovadoras para o tratamento do diabetes tipo 2

The prevalence of diabetes and impaired glucose tolerance is predicted to dramatically increase over the next two decades. Clinical therapies for type 2 diabetes mellitus (T2DM) have traditionally included lifestyle modification, oral anti-diabetic agents, and ultimately insulin initiation. In this report, we review the clinical trial results of two innovative T2DM treatment therapies that are based on the glucoregulatory effects of incretin hormones. Incretin mimetics are peptide drugs that mimic several of the actions of glucagon-like peptide-1 (GLP-1) and have been shown to lower glycated hemoglobin (A1C) levels in patients with T2DM. Additionally, incretin mimetics lower postprandial and fasting glucose, suppress elevated glucagon release, and are associated with progressive weight reduction. Dipeptidyl peptidase-4 (DPP-4) inhibitors increase endogenous GLP-1 levels by inhibiting the enzymatic degradation of GLP-1. Clinical studies in patients with T2DM have shown that DPP-4 inhibitors reduce elevated A1C, lower postprandial and fasting glucose, suppress glucagon release, and are weight neutral. Collectively, these new drugs, given in combination with other antidiabetic agents, such as metformin, sulfonylureas, and/or thiazolidinediones, can help restore glucose homeostasis in poorly controlled patients with T2DM.

É previsto que a prevalência de diabetes e a intolerância à glicose aumente dramaticamente ao longo das próximas duas décadas. As terapias clínicas para diabetes melito tipo 2 (DM2) têm tradicionalmente incluído modificação do estilo de vida, agentes antidiabéticos orais e, por último, o início da insulina. Neste artigo, revisamos os resultados dos estudos clínicos de duas terapias inovadoras no tratamento do DM2 baseadas nos efeitos glicorregulatórios dos hormônios incretina. Os incretinomiméticos são medicamentos peptídeos que mimetizam várias das ações do peptídeo semelhante ao glucagon-1 (GLP-1) e têm demonstrado reduzir níveis de hemoglobina glicada (A1C) em pacientes com DM2. Adicionalmente, incretinomiméticos reduzem as glicemias pós-prandial e de jejum, suprimem a liberação elevada do glucagon, e são associados com redução de peso. Os inibidores da dipeptidil peptidase-4 (DPP-4) aumentam os níveis de GLP-1 endógeno pela inibição da degradação enzimática do GLP-1. Estudos clínicos em pacientes com DM2 têm demonstrado que inibidores da DPP-4 reduzem A1C elevada, reduzem as glicemias pós-prandial e de jejum, suprimem a liberação elevada do glucagon e são neutros quanto ao peso. Coletivamente, estas novas medicações, administradas em combinação com outros agentes antidiabéticos, como metformina, sulfoniluréias e/ou tiazolidinedionas (TZDs), podem ajudar a recuperar a homeostase glicêmica de pacientes com DM2 não-controlados.

Exenatide: uso en humanos / Exenatide: use in humans

El exenatide es el primer agonista sintético del receptor de GLP-1 (glucagon-like peptide 1) aprobado para el tratamiento de pacientes con diabetes tipo 2. La multiplicidad de efectos que produce sobre el metabolismo de la glucosa, el apetito y el peso corporal, así como su capacidad potencial para mantener la masa de células β, lo convierten en una alternativa terapéutica atractiva. El presente artículo pretende revisar la información existente sobre la farmacocinética, farmacodinamia, efectividad y seguridad del exenatide en humanos, derivada de los primeros estudios de fase I y II y de los ensayos clínicos controlados que condujeron a la aprobación de su uso clínico como terapia de combinación con sulfonilureas y metformina.

Exenatide is the first synthetic agonist of the GLP-1 (glucagon-like peptide 1) receptor approved for clinical use in patients with type 2 diabetes. The multiplicity of its effects over glucose metabolism, appetite, body weight and its potential capacity to preserve the ?cell mass, makes it an attractive therapeutic alternative. This article attempts to review the current literature on pharmacokinetics, pharmacodynamics, efficacy, and safety of exenatide in humans, derived from the early phase I and II studies, and from the clinical controlled trials that led to its approval for clinical use as a combination therapy with sulphonylureas and metformin.