Charmian D.N. Cher scite author profile

Various clinical manifestations leading to death have been documented in most cases of bites caused by venomous snakes. Cobra envenomation is an extremely variable process and known to cause profound neurological abnormalities. The complexity of cobra venom can induce multiple-organ failure, leading to death in case of severe envenomation. Intramuscular administration of Malayan spitting cobra (Naja sputatrix) crude venom at 1 microg/g dose caused death in mice in approximately 3 h. Analysis of gene expression profiles in the heart, brain, kidney, liver and lung revealed 203 genes whose expression was altered by at least 3-fold in response to venom treatment. Of these, 50% were differentially expressed in the heart and included genes involved in inflammation, apoptosis, ion transport and energy metabolism. Electrocardiogram recordings and serum troponin T measurements indicated declining cardiac function and myocardial damage. This not only sheds light on the cardiotoxicity of cobra venom but also reveals the molecular networks affected during envenomation.

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A secretory phospholipase A2-mediated neuroprotection and anti-apoptosis

Armugam

Cher

Lim

et al. 2009

BMC Neurosci

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Pulmonary Inflammation and Edema Induced by Phospholipase A2

Cher

Armugam

Lachumanan³

et al. 2003

Journal of Biological Chemistry

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Victims of snakebite quickly succumb to severe respiratory failure, which can be fatal if left untreated. One of the most toxic components of snake venom is phospholipase A 2 (PLA 2 ; EC 3.1.1.4). PLA 2 isolated from the elapid, Naja sputatrix, induced pulmonary inflammation and edema when administered intravenously and intratracheally to rats. Analysis of pulmonary gene expression profiles using oligonucleotide microarrays revealed 60 genes whose expression was altered by at least 3-fold in response to intratracheal instillation of PLA 2 for 3 h as compared with controls. In addition to genes encoding cytokines and chemokines responsible for inflammatory processes, the Na ؉ /K ؉ -ATPase gene has been found to be involved in edema formation. Real-time PCR, Western blot, and immunohistochemical analyses confirmed that the expression of AQP1 and AQP5 mRNAs and proteins was decreased. Besides providing an experimental model for studies on the pathophysiology of the lung, this investigation yields a clue to the mechanisms by which endogenous PLA 2 s could mediate inflammation in conditions such as allergy and rheumatoid arthritis.

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Charmian D.N. Cher

Molecular basis of cardiotoxicity upon cobra envenomation

A secretory phospholipase A2-mediated neuroprotection and anti-apoptosis

Pulmonary Inflammation and Edema Induced by Phospholipase A2

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