Differential Modulation of the Phosphoproteome by the MAP Kinases Isoforms p38α and p38β

Abstract: The p38 members of the mitogen-activated protein kinases (MAPKs) family mediate various cellular responses to stress conditions, inflammatory signals, and differentiation factors. They are constitutively active in chronic inflammatory diseases and some cancers. The differences between their transient effects in response to signals and the chronic effect in diseases are not known. The family is composed of four isoforms, of which p38α seems to be abnormally activated in diseases. p38α and p38β are almost identi… Show more

“…It is tempting to speculate that mammalian p38 MAPK could have a similar regulatory role with PMK-3 on LonP1 and HSF1 functions. Although in mammals there are four p38 isoforms that are highly similar to PMK-1 in worms, they exhibit differential expression/activation patterns and specific downstream effectors [1,66], raising the possibility that they may fulfill analogous cellular functions to the PMK-3 kinase in worms, promoting organismal fitness and stress responses.…”

Mitochondrial p38 Mitogen-Activated Protein Kinase: Insights into Its Regulation of and Role in LONP1-Deficient Nematodes

“…It is tempting to speculate that mammalian p38 MAPK could have a similar regulatory role with PMK-3 on LonP1 and HSF1 functions. Although in mammals there are four p38 isoforms that are highly similar to PMK-1 in worms, they exhibit differential expression/activation patterns and specific downstream effectors [1,66], raising the possibility that they may fulfill analogous cellular functions to the PMK-3 kinase in worms, promoting organismal fitness and stress responses.…”

Mitochondrial p38 Mitogen-Activated Protein Kinase: Insights into Its Regulation of and Role in LONP1-Deficient Nematodes

Comprehensive genome-wide identification and functional characterization of mapk gene family in northern snakeheads (Channa argus)

Special Issue: MAPK Signaling Cascades in Human Health and Diseases