Differential expression of protein kinase C beta I (PKC beta I) but not PKC alpha and PKC beta II in the suprachiasmatic nucleus of selected house mouse lines, and the relationship to arginine-vasopressin

The functional significance of the suprachiasmatic nucleus (SCN) in circadi an rhythm control of mammals has been well documented. The role of protein phosphorylation mediated by protein kinase C (PKC), however, is not well kn own. We report the immunocytochemical localization of three Ca2+-dependent PKC isoforms (alpha, betaI, beta II) within the SCN of selected house mouse lines that differ in behavioral circadian rhythm parameters. Optical densi ty measurements revealed that the adult mice selected for low levels of nes t-building behavior (small nest-builders) had more than threefold higher PK C betaI immunostaining in the SCN than the mice selected for high levels of nest-building behavior (big nest-builders). A similar twofold difference b etween the adult small and big nest-builders was observed for the number of PKC betaI-containing cells in the SCN. The non-selected control lines were intermediate. Ten-day-old pups revealed similar differences in PKC betaI i mmunostaining in the SCN between the small and big nest-builders. PKC alpha and PKC beta II immunostaining in the SCN was not different among the line s. PKC betaI immunostaining was not different among the selected lines in t he lateroanterior hypothalamic nucleus (LA) and the cornu ammonis field I ( CAI) of the dorsal hippocampus and confirms the specificity of the differen ce in PKC betaI immunostaining in the SCN among the selected lines. The sig nificance of these findings is discussed in the context of differences amon g the lines in arginine-vasopressin (AVP) and light-induced Fos expression in the SCN, behavioral phase-delay responses to 15-min light pulses in cons tant darkness, and measures of the strength of the circadian activity rhyth m expressed. (C) 2001 Elsevier Science BY All rights reserved.