Jellyfish Nemopilema nomurai causes myotoxicity through the metalloprotease component of venom.

Jellyfish envenomation is a common medical problem in many countries. However, the myotoxicity and effector molecules of scyphozoan venoms remain uninvestigated. Here, we present the myotoxicity of nematocyst venom from Nemopilema nomurai (NnNV), a giant venomous scyphozoan from China, for the first time, using in vivo models with inhibitors. NnNV was able to induce remarkable myotoxicity including significant muscle swelling, increasing the content of CK and LDH in serum, stimulating inflammation of muscle tissue, and destroying the structure of muscle tissue. In addition, the metalloproteinase inhibitors BMT and EDTA significantly reduced the myotoxicity induced by NnNV. Moreover, BMT and EDTA could decrease the inflammatory stimulation and necrosis of muscle tissue caused by the venom. These observations suggest that the metalloproteinase components of NnNV make a considerable contribution to myotoxicity. This study contributes to understanding the effector molecules of muscle injury caused by jellyfish stings and suggests a new idea for the treatment of scyphozoan envenomation.

Flavonoid-statin interactions causing myopathy and the possible significance of OATP transport, CYP450 metabolism and mevalonate synthesis.

3-hydroxy-3-methyl-glutaryl-coenzyme A (HMG-CoA) reductase inhibitors, statins, are a primary treatment for hyperlipidemic cardiovascular diseases which are a leading global cause of death. Statin therapy is life saving and discontinuation due to adverse events such as myotoxicity may lead to unfavourable outcomes. There is no known mechanism for statin-induced myotoxicity although it is theorized that it is due to inhibition of downstream products of the HMG-CoA pathway. It is known that drug-drug interactions with conventional medicines exacerbate the risk of statin-induced myotoxicity, though little attention has been paid to herb-drug interactions with complementary medicines. Flavonoids are a class of phytochemicals which can be purchased as high dose supplements. There is evidence that flavonoids can raise statin plasma levels, increasing the risk of statin-induced myopathy. This could be due to pharmacokinetic interactions involving hepatic cytochrome 450 (CYP450) metabolism and organic anion transporter (OATP) absorption. There is also the potential for flavonoids to directly and indirectly inhibit HMG-CoA reductase which could contraindicate statin-therapy. This review aims to discuss what is currently known about the potential for high dose flavonoids to interact with the hepatic CYP450 metabolism, OATP uptake of statins or their ability to interact with HMG-CoA reductase. Flavonoids of particular interest will be covered and the difficulties of examining herbal products will be discussed throughout.

Gallic acid anti-myotoxic activity and mechanism of action, a snake venom phospholipase A2 toxin inhibitor, isolated from the medicinal plant Anacardium humile.

Snakebite envenoming is the cause of an ongoing health crisis in several regions of the world, particularly in tropical and neotropical countries. This scenario creates an urgent necessity for new practical solutions to address the limitations of current therapies. The current study investigated the isolation, phytochemical characterization, and myotoxicity inhibition mechanism of gallic acid (GA), a myotoxin inhibitor obtained from Anacardium humile. The identification and isolation of GA was achieved by employing analytical chromatographic separation, which exhibited a compound with retention time and nuclear magnetic resonance spectra compatible with GA's commercial standard and data from the literature. GA alone was able to inhibit the myotoxic activity induced by the crude venom of Bothrops jararacussu and its two main myotoxins, BthTX-I and BthTX-II. Circular dichroism (CD), fluorescence spectroscopy (FS), dynamic light scattering (DLS), and interaction studies by molecular docking suggested that GA forms a complex with BthTX-I and II. Surface plasmon resonance (SPR) kinetics assays showed that GA has a high affinity for BthTX-I with a KD of 9.146 × 10-7 M. Taken together, the two-state reaction mode of GA binding to BthTX-I, and CD, FS and DLS assays, suggest that GA is able to induce oligomerization and secondary structure changes for BthTX-I and -II. GA and other tannins have been shown to be effective inhibitors of snake venoms' toxic effects, and herein we demonstrated GA's ability to bind to and inhibit a snake venom PLA2, thus proposing a new mechanism of PLA2 inhibition, and presenting more evidence of GA's potential as an antivenom compound.

Development of Nanobodies Against Hemorrhagic and Myotoxic Components of Bothrops atrox Snake Venom.

Snake envenoming is a globally neglected public health problem. Antivenoms produced using animal hyperimmune plasma remain the standard therapy for snakebites. Although effective against systemic effects, conventional antivenoms have limited efficacy against local tissue damage. In addition, potential hypersensitivity reactions, high costs for animal maintenance, and difficulties in obtaining batch-to-batch homogeneity are some of the factors that have motivated the search for innovative and improved therapeutic products against such envenoming. In this study, we have developed a set of nanobodies (recombinant single-domain antigen-binding fragments from camelid heavy chain-only antibodies) against Bothrops atrox snake venom hemorrhagic and myotoxic components. An immune library was constructed after immunizing a Lama glama with whole venom of B. atrox, from which nanobodies were selected by phage display using partially purified hemorrhagic and myotoxic proteins. Biopanning selections retrieved 18 and eight different nanobodies against the hemorrhagic and the myotoxic proteins, respectively. In vivo assays in mice showed that five nanobodies inhibited the hemorrhagic activity of the proteins; three neutralized the hemorrhagic activity of whole B. atrox venom, while four nanobodies inhibited the myotoxic protein. A mixture of the anti-hemorrhagic and anti-myotoxic nanobodies neutralized the local tissue hemorrhage and myonecrosis induced by the whole venom, although the nanobody mixture failed to prevent the venom lethality. Nevertheless, our results demonstrate the efficacy and usefulness of these nanobodies to neutralize important pathologies of the venom, highlighting their potential as innovative therapeutic agents against envenoming by B. atrox, a viperid species causing many casualties in South America.

Coenzyme Q10.

Coenzyme Q10 (CoQ10) is among the most widely used dietary and nutritional supplements on the market. CoQ10 has several fundamental properties that may be beneficial in several clinical situations. This article reviews the pertinent chemical, metabolic, and physiologic properties of CoQ10 and the scientific data and clinical trials that address its use in two common clinical settings: statin-associated myopathy syndrome (SAMS) and congestive heart failure (CHF). Although clinical trials of CoQ10 in SAMS have conflicting conclusions, the weight of the evidence, as seen in meta-analyses, supports the use of CoQ10 in SAMS overall. In CHF, there is a lack of large-scale randomized clinical trial data regarding the use of statins in patients receiving contemporary treatment. However, one relatively recent randomized clinical trial, Q-SYMBIO, suggests an adjunctive role for CoQ10 in CHF. Recommendations regarding the use of CoQ10 in these clinical situations are presented.

Miopatía por estatinas y vitamina D / Statin-Related Myopathy and Vitamin D

Las estatinas son fármacos habitualmente seguros y bien tolerados, muy eficaces para la prevención de trastornos cardiovasculares. La presencia de mialgias, poco frecuente, pero con incidencia dispar en diversos reportes, es una de las causas de abandono de su uso. También las distintas denominaciones (mialgia, miopatía, rabdomiólisis) y la subjetividad de cada paciente para referirlas han creado confusión en el tema. Se ha comenzado a reportar asociación entre niveles de vitamina D sérica disminuida y mayor riesgo de miopatía, por un lado, y trabajos donde pacientes que las abandonaban a causa de mialgias, con deficiencia de vitamina D, pueden tolerarlas una vez que se suplementa la vitamina hasta valores deseables. La presencia de polimorfismos en genes de enzimas que metabolizan o transportan a las estatinas es otro factor claramente relacionado con miopatía. Es posible que el déficit de vitamina D deba ser considerado un factor de riesgo para desarrollar miopatía por estatinas, como lo serían también la administración simultánea de fármacos que se metabolizan por la misma vía de citocromo P450, o la presencia de los polimorfismos mencionados. En conclusión, el hallazgo de tener deficiencia de vitamina D se asocia a miopatía por estatinas, o que es un factor de riego para desarrollarla, abre nuevas perspectivas para un gran número de pacientes que abandonan este tratamiento debido a esta patología. (AU)

Statins are usually safe and well tolerated drugs, very effective for preventing cardiovascular complications. The rare presence of myalgia, with different incidence as reported by several studies, is one of the causes of lack of drug compliance. Also the different symptoms referred (myalgia, myopathy, rhabdomyolysis) and the lack of objetivity of each patient when referring to the symptoms, have created confusion in this matter. Associations between decreased vitamin D levels and increased risk of myopathy has been reported. Indeed, studies describing patients with vitamin D deficiency who are not compliant due to myalgia show that they become tolerant to the drugs once the vitamin is supplemented to desirable values. The presence of gene polymorphisms for enzymes that metabolize or transport statins is another factor clearly related to myopathy. Therefore, we should consider vitamin D deficiency and other conditions such as the simultaneous administration of drugs that are metabolized by the same cytochrome P450 pathway, or the presence of mentioned polymorphisms as a risk factor for developing myopathy due to statins. In conclusion, the finding that vitamin D deficiency is associated with statin myopathy, or is a risk factor its develpoment, opens new perspectives for a large number of patients who leave this treatment due to this condition. (AU)