Abstract
Leprosy is an infectious disease in which the susceptibility to the pathogen Mycobacterium leprae and the clinical manifestations are attributed to host immune cell response. Receptor mediated events and signalling in the immune cells are mediated by protein phosphorylation. The main signalling pathways and protein kinases known to be involved in the regulation of immune cells are cAMP dependent kinases, calcium/calmodulin dependent kinases, protein kinase C and mitogen activated protein kinases. The cumulative consequence of alterations in signalling pathways can be evaluated by intrinsic cellular protein phosphorylation by gamma-P32 ATP. The present study was designed to assess the protein phosphorylation in the immune cells of leprosy patients as compared with normal individuals. Lymphocyte protein phosphorylation was conducted in 15 leprosy patients and 9 normal individuals. Protein phosphorylation of lymphocytes was carried out in the presence/absence of protein kinase modulators. The phosphorylation patterns were documented and analysed consequent to SDS-PAGE, staining, destaining, drying and autoradiography. The major phosphorylated proteins in lymphocytes were of molecular weights 20-22, 24-29, 30-35, 43, 46-50 and 66-68 kDa. In general, the major phosphorylated proteins were similar in the controls and in the patients. The phosphorylatability of these proteins varied with different modulators. Variations in the phosphorylation pattern were observed in 25% of the leprosy patients where there was a decrease of the 66 kDa protein and a decrease of 20-22 kDa protein phosphorylation. The observed alterations in the protein phosphorylation pattern could be due to alteration in kinases and/or their substrates or due to the effect of M. leprae on immune cells.
Highlights
Leprosy is a chronic disease caused by the infectious agent Mycobacterium leprae
When compared to the control, the 20-22 kDa phosphorylated set of proteins showed a significant decrease in leprosy patients in the presence of cyclic adenosine monophosphate (cAMP), cyclic guanosine monophosphate (cGMP) and Phosphatidyl inositoI (PI)
Protein phosphorylation has a fundamental importance in cell regulation by signal transduction where the cell responds to extra cellular stimuli
Summary
Susceptibility to M. leprae infection has been attributed to a cell mediated immune (CMI) defect in the host. The steps beginning from antigen presentation, signalling and to expression of immune modulators is mediated by cell signalling pathways. Earlier studies have suggested that biochemical events of T-cell activation could be altered in leprosy [18, 19, 22]. Leprosy is an infectious disease in which the susceptibility to the pathogen Mycobacterium leprae and the clinical manifestations are attributed to host immune cell response. The present study was designed to assess the protein phosphorylation in the immune cells of leprosy patients as compared with normal individuals. Conclusion: The observed alterations in the protein phosphorylation pattern could be due to alteration in kinases and/or their substrates or due to the effect of M. leprae on immune cells.
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