Snake venoms have components with diverse biological actions that are extensively studied to identify elements that may be useful in biomedical sciences. In the field of autoimmunity and rheumatology, various findings useful for the study of diseases and potential drug development have been reported. The study of disintegrins, proteins that block the action of integrins, has been useful for the development of antiplatelet agents and principles for the development of immunosuppressants and antineoplastics. Several proteins in snake venoms act on the coagulation cascade, activating factors that have allowed the development of tests for the study of coagulation, including Russell’s viper venom time, which is useful in the diagnosis of antiphospholipid syndrome. Neurotoxins with either pre- or postsynaptic effects have been used to study neurogenic synapses and neuromuscular plaques and the development of analgesics, muscle relaxants and drugs for neurodegenerative diseases. Various components act by inhibiting cells and proteins of the immune system, which will allow the development of anti-inflammatory and immunosuppressive drugs. This review summarizes the usefulness of the components of snake venoms in the fields of autoimmunity and rheumatology, which can serve as a basis for diverse translational research.
There are more than 100 autoimmune diseases (AD), which have a high prevalence that ranges between 5% and 8% of the general population. Type I diabetes mellitus, multiple sclerosis, systemic lupus erythematosus and rheumatoid arthritis remain the health problem of highest concern among people worldwide due to its high morbidity and mortality. The development of new treatment strategies has become a research hotspot. In recent years, the study of the ion channels presents in the cells of the immune system, regarding their functional role, the consequences of mutations in their genes and the different ways of blocking them are the subject of intense research. Pharmacological blockade of KV1.3 channel inhibits Ca2+ signaling, T cell proliferation, and pro-inflammatory interleukins production in human CD4 + effector memory T cells. These cells mediated most of the AD and their inhibition is a promising therapeutic target. In this review, we will highlight the biological function of KV1.3 channel in T cells, consequence of the pharmacological inhibition (through anemone and scorpion toxins, synthetic peptides, nanoparticles, or monoclonal antibodies) as well as the possible therapeutical application in AD.
BackgroundAlthough the red-tailed coral snake (Micrurus mipartitus) is widely distributed in Colombia and its venom is highly neurotoxic and life threatening, envenomation by this species is rare. Therefore, this report may shed some light on the clinical presentation of M. mipartitus bites.Case presentationsHerein, we describe two cases of patients bitten by red-tailed coral snakes, illustrating the clinical presentation of the victims, the outcomes and treatment provided.ConclusionEnvenomation caused by M. mipartitus provokes predicable neurotoxicity, and its treatment should be based on respiratory support and use of specific antivenom.
Background In southwestern Colombia there is a notable variety of snakes that belong to the Viperidae family (vipers). The particular clinical manifestation related to species is poorly reported. Methods Based on a prospective study about envenomation caused by vipers from 2011 to 2019 at the Fundación Valle del Lili Hospital, Cali, in southwest Colombia, we selected cases of admitted patients in which the snakes responsible were fully identified. They were cataloged by clinical syndrome according to prevalent signs (edema-inducing, necrotizing, blister-inducing, procoagulant, anticoagulant or myotoxic) and were related to the species that caused the envenomation. Results From a cohort of 53 patients, 21 patients (16 males [72.7%]) with an average age of 35 (3–69) y were included. The syndromes associated with envenomation were anticoagulant and necrotizing effects of Bothrops asper (five patients [22.7%]), blister-inducing and anticoagulant effects of Bothrops rhombeatus (five [22.7%]), anticoagulant effects of Bothrops punctatus (three patients [13.6%]), edema-inducing and anticoagulant effects of Bothriechis schlegelii (five [22.7%]), edema-inducing and myotoxic effects of Bothrocophias colombianus (one [4.5%]), edema-inducing and myotoxic effects of Bothrocophias myersi (one [4.5%]) and edema-inducing effects of Porthidium nasutum (one [4.5%]). Conclusion In southwestern Colombia there is notable variety in species of snakes belonging to the family Viperidae (vipers) whose envenomation causes various clinical syndromes.
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