A PTP4A3 peptide PIMAP39 modulates TNF-alpha levels and endotoxic shock.

来自 EBSCO

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摘要：

Lipopolysaccharide (LPS) stimulation of macrophages initiates intracellular signaling pathways leading to activation of MAPK and its subsequent influence on cytokine production. We recently identified a LITAF-STAT6(B) complex regulated by p38 MAPK in response to LPS stimulation. However, the LPS-induced cascade in the p38/LITAF/TNF signaling pathway remains unclear. Here, we identified PTP4A3, a protein tyrosine phosphotase, as a novel negative regulator of LPS-induced LITAF/TNF-α production. PTP4A3 exerts its negative role by dephosphorylating p38α MAPK in response to LPS stimulation of primary macrophages. PTP4A3 expression is upregulated in primary macrophages. Further structure-function analysis revealed that a unique short peptide (PIMAP39) derived from PTP4A3 is capable of mimicking the functionality of full-length PTP4A3 to selectively dephosphorylate p38α and indirectly suppress LPS-induced LITAF-STAT6B complex when it is translocated from the cytoplasmic region to the nucleus of the cell. Treatment of mice with PIMAP39 significantly attenuates the severity of adverse host responses to LPS stimulation, and in some cases provides complete resistance to a lethal dose of LPS due to suppression of TNF-α production. All together, these results reveal a previously unrecognized role for the PTP4A3 pathway in response to LPS.

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关键词：

Immunology In vitro assays Inflammation Kinases Regulation of lethal toxin MAP kinases Phosphatases Signal transduction LITAF Phosphorylation Peptide PIMAP39 TNF