Scorpion envenomation poses a significant health threat in endemic regions, eliciting complex immune responses in affected individuals. Recent research suggests that the timing of envenomation - whether it occurs during the day or night - may influence the host inflammatory response and subsequent organ damage. This study investigates the impact of envenomation timing on host inflammatory and oxidative responses using an experimental scorpion envenomation model.

Temperature regulation is essentially important for survival of poikilotherms such as snakes. Body temperature is regulated by snakes through behavioral and physiological responses. The global-warming crisis, combined with the need to house large population of snakes in limited spaces, increases the likelihood of exposing snakes to high ambient temperature (HTa), requiring it reliance on physiological responses. This study aimed to study the effect of HTa exposure on physiological responses and venom production, which have rarely been studied.

Osteosarcoma is the most common primary bone tumor in humans. It is a locally aggressive tumor at the primary site, with metastasis being the main cause of death in patients. Studies on dogs have gained prominence in oncology, as they are valuable spontaneous models of osteosarcoma. In the context of natural compounds, biotoxins are attracting increasing research interest as new therapeutic agents against cancer, such as melittin, that represents 40 to 50% of the dry weight of bee venom, and studies have already shown its antitumor effects.

Leishmaniasis is a neglected disease that mainly affects impoverished populations and receives limited attention from governments and research institutions. Current treatments are based on antimonial therapies, which present high toxicity and cause significant side effects, such as cardiotoxicity and hepatotoxicity. This study proposes using crotapotin, isolated from venom, as a potential inhibitor of the enzyme trypanothione reductase from (LbTR).

Envenomation by aquatic species is an under-investigated source of human morbidity and mortality. Increasing population density along marine and freshwater coastlines increases these incidents. Specific occupational groups - including commercial fishery workers, fisherfolk, marine tourism workers, and researchers - rely on aquatic resources for their livelihood. While diverse venomous aquatic species exhibit a broad array of habitats worldwide, they are most abundant in the tropics. Specific tropical regions present historic "hot spot" areas of concern for occupational groups with heightened risk of aquatic envenomation. Towards the overall objective of characterizing the health burden of aquatic envenomations, this review seeks to define (1) vulnerable, high-risk populations and (2) geographic hot-spot regions. To formally assess these metrics, a systematic literature review was performed where inclusion criteria requirements were peer-reviewed, published, epidemiological studies with defined denominators from January 1, 2000, to July 31, 2024, on the topic of human envenomation by aquatic species. Fifty-three articles met the inclusion criteria. Excluded articles were comprised of case reports, news and magazine articles, and those in languages aside from English, French, Portuguese, and Spanish. Most of the included articles examined emergency department and poison-control datasets that reported few overall envenomations (< 1%) from populations with physical and financial access to medical care. In contrast, datasets surveying beachgoers or fisherfolk directly, and life-guard incident reports, demonstrated that aquatic envenomation is an important source of injury for these groups and settings (envenomation frequency mean: 71%, median: 80%). Reports on additional high-risk groups, including marine and aquatic biologists, military personnel etc., and in key high-risk geographic regions including Thailand, Indonesia, and other Indo-Pacific countries were missing from the reviewed literature. Socio-demographic data were also largely missing from the literature. This systematic review highlights critical gaps where further research is needed, especially in under-represented regions and vulnerable populations.

Scorpion venom contains a variety of toxin molecules that are the drivers of inflammation and oxidative stress, leading to significant tissue damage. While several mechanisms underlying these responses have been studied, the involvement of the proteasome complex - a key regulator of inflammation - remains poorly understood. This study explored the role of the proteasome in modulating inflammatory and oxidative responses to envenomation by venom.

Bufadienolides are the main secondary metabolites found in the paratoid gland secretions (PGS) of toads of the Bufonidae family. These compounds are considered the main bioactive components of PGS. The aim of this study was to develop and validate the first method for the quantification of total bufadienolides (free and esterified) in samples of paratoid secretions from toads, using the UV-Vis absorption spectrophotometry technique.

Fish venoms have been poorly characterized and the available information about their composition suggests they are uncomplicated secretions that, combined with epidermal mucus, could induce an inflammatory reaction, excruciating pain, and, in some cases, local tissue injuries.

Cancer is one of the leading causes of death worldwide, with incidence rates continuously increasing, thereby posing a major healthcare challenge. Although many oncological drugs fulfill therapeutic requirements, they often show high toxicity due to their limited specificity. To address this problem, there has been a search for natural therapies, including animal venoms that harbor bioactive molecules with therapeutic potential, as well as biological models that facilitate their study. Consequently, three-dimensional culture models, such as spheroids, play a pivotal role in evaluating anticancer molecules, as they can effectively mimic tumor microenvironments.

In the biomedical field, translational science is the process of applying basic scientific knowledge to advance clinical research through the creation of new drugs, devices, medical procedures, preventive measures, and diagnostic kits. The Covid-19 pandemic exposed a shortage of professionals trained in translational research, essential for responding to global demands. To drive advancements, researchers must overcome the 'valley of death', a critical phase in clinical investigation. In response, CEVAP at São Paulo State University (UNESP), Botucatu, Brazil, has developed a strong 'knowledge industry' centered on Translational Science. As part of its research and innovation efforts, CEVAP has developed two biopharmaceuticals, the fibrin sealant and the apilic antivenom, which are currently in the final stage of development. In 2024, CEVAP began the first Brazilian Contract Development and Manufacturing Organization (CDMO) for developing and producing validated and qualified pilot-scale batches to generate clinical trial material.

Snake venom C-type lectin-like proteins (also known as snaclecs) have anticoagulation and procoagulation effects by targeting platelet or coagulation factor IX/X, suggesting their potential as candidates for new anticoagulant drugs. Therefore, this study aims to evaluate the antiplatelet and antithrombotic effects of a new snaclec from venom and its potential as an anticoagulant candidate.

Acute kidney injury (AKI) is a serious complication associated with envenomation, primarily due to direct nephrotoxicity. This study aimed to investigate the effects of the phospholipase A (RvPLA₂) fraction from venom on renal function and to assess whether pretreatment with ion channel blockers could mitigate these effects using an isolated perfused kidney (IPK) model.

Inflammation plays a critical role in the pathogenesis of limb injury caused by snakebite. Investigating its regulatory mechanisms and intervention strategies may help identify effective treatments. Recent studies have shown that pyroptosis exacerbates organ damage by amplifying inflammatory responses. Additionally, immune and matrix-regulatory cells (IMRC), a novel type of mesenchymal stem cell, and their exosomes (Exo) have demonstrated potential in mitigating inflammation-mediated injury by suppressing pyroptosis. This study aimed to evaluate whether IMRC-Exo could alleviate venom-induced limb injury in rabbits by suppressing pyroptosis, thereby attenuating the associated inflammatory response.

Chagas disease (CD), caused by , affects approximately seven million individuals worldwide, with the highest number of cases in Latin America. CD has two phases, of which the chronic phase is characterized by reduced efficacy in drug therapies. This and other factors make developing new strategies that aim to identify molecules capable of becoming alternatives to or complement current chemotherapy vitally important.

Brazilian waters are home to various venomous fish species, each with its unique venom composition. Although common, envenomation cases are largely underreported, leading to a lack of public health policies for prevention and treatment. Some of the most clinically relevant fish in Brazil include the stingray , the toadfish , the scorpionfish , and the catfish and .

Non-small cell lung cancers (NSCLC) represent the primary cause of cancer-related deaths worldwide. venom has been shown to exert cytotoxic effects against a panel of epithelial cancer cells and suggested that NSCLC was the subtype most susceptible to the treatment.

, or the hundred-pace snake, poses severe health risks due to its venom. Envenomation by this snake leads to complications such as hemorrhage, edema, and coagulopathy. Traditional antivenoms are limited by venom variability and often contain non-neutralizing antibodies, highlighting the need for more precise and effective immunogens.

This study examines the impact of Phα1β, a spider peptide derived from the venom of , on the Kv11.1 potassium channel in HEK293 cells transfected with the human ERG potassium channel. Phα1β inhibits high-voltage calcium channels and acts as an antagonist of the TRPA1 receptor, both of which play crucial roles in pain transduction pathways. Over the past 15 years, our research has demonstrated the potential of Phα1β, in both its native and recombinant forms, as a promising analgesic drug through preclinical tests conducted on rodent pain models. Regulatory agencies require the evaluation of new drugs on human ERG channels.

Spiders of medical importance in the Amazon region belong to the genera , and . Natural history data show that spp. occur in both periodically flooded forest areas () and non-flooded areas (), as well as in commercial plantations in the Amazon. Negative interactions with wandering spiders ( spp.) can occur along forest trails, leading to homes, schools and workplaces. Harmful species, such as and aff. , are mainly associated with accidents in rural settings.

Medications currently used to treat pain are frequently associated with serious adverse effects and rapid development of tolerance. Thus, there is a need to develop more effective, and safer medicines for the population. Blocking NMDA receptors (NMDAR) has shown to be a promising target for the development of new drugs. That statement is due to NMDAR activation and glutamate release in the spinal cord which affects chronic pain modulation. Therefore, the aim of this study was to evaluate the possible spinal antinociceptive activity of PnTx4(5-5) toxin. The peptide is purified from the venom of the spider and its affinity for NMDAR and sodium channels Nav1.2-1.6 has already been established.

The treatment of cutaneous leishmaniasis (CL) is challenged by limited therapeutic options, high drug toxicity, and frequent treatment failure. In this context, iron oxide nanoparticles (IONPs) have emerged as promising therapeutic alternatives. This review summarizes experimental findings on the and anti- activity of IONPs, highlighting their potential as a treatment for CL. A systematic search of PubMed, ScienceDirect, and Scopus identified 16 studies evaluating the anti- effects of IONPs across various CL models. The studies assessed IONPs' physicochemical properties (size, shape, polydispersity index, and zeta potential), functionalization strategies, and efficacy against axenic and intracellular forms, as well as in animal models. Most studies investigated spherical IONPs ranging from 5 to 90 nm, with polydispersity index values between 0.2 and 1.0 and zeta potentials from -13 mV to +35 mV. Functionalization improved dispersion and enabled antimicrobial conjugation. IONPs reduced axenic viability, decreased intracellular parasitism, and lowered parasite loads in infected mouse lesions. , parasite death was linked to lysosomal rupture, oxidative stress, apoptosis, necrosis, and nitric oxide production by macrophages. , treated animals exhibited reduced parasite burdens, milder lesions, and enhanced IFN-γ production, suggesting improved immune responses. Despite these promising effects, issues such as formulation optimization, biocompatibility, and evaluation of pharmacokinetics and pharmacodynamics remain to be addressed. IONPs represent a novel and promising dual-action therapeutic strategy for CL, combining antiparasitic effects with immune modulation. However, important knowledge gaps persist regarding their mechanisms of action, long-term safety, efficacy across different species and clinical scenarios. Further research is needed to advance IONPs as a safe and effective treatment for CL.