Membranes, cell, ATPase inhibitors damage

Mercury is a reactive element and its toxicity is probably due to interaction with proteins. Mercury has a particular affinity for sulphydryl groups in proteins and consequently is an inhibitor of various enzymes such as membrane ATPase, which are sulphydryl dependent. It can also react with amino, phosphoryl and carboxyl groups. Brain pyruvate metabolism is known to be inhibited by mercury, as are lactate dehydrogenase and fatty acid synthetase. The accumulation of mercury in lysosomes increases the activity of lysomal acid phosphatase which may be a cause of toxicity as lysosomal damage releases various hydrolytic enzymes into the cell, which can then cause cellular damage. Mercury accumulates in the kidney and is believed to cause uncoupling of oxidative phsophorylation in the mitochondria of the kidney cells. Thus, a number of mitochondrial enzymes are inhibited by Hg2+. These effects on the mitochondria will lead to a reduction of respiratory control in the renal cells and their functions such as solute reabsorption, will be compromised. 

Reductase. The polyols are accumulated in nervous tissue (the nerve cell membrane is not permeable for polyols) causing osmotic damage to the nerve cell with reduction in myo-inositol and Na+/K+-ATPase activity and increased oxidative stress. A number of Aldose Reductase inhibitors have been developed, and several of these have been tested in diabetic patients [6]. 

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