Proteasome implication in phorbol ester- and GnRH-induced selective down-regulation of PKC (alpha, epsilon, zeta) in alpha T(3)-1 and L beta T(2) gonadotrope cell lines.
Endocrinology
; 143(4): 1386-403, 2002 Apr.
Article
in En
| MEDLINE
| ID: mdl-11897696
ABSTRACT
We investigated mechanisms underlying selective down-modulation of PKC isoforms (alpha, epsilon, zeta) 1) during 12-O-tetradecanoyl-phorbol-13 acetate (TPA) (10(-7) M) or GnRH (10(-7) M) desensitization conditions (2- to 6-h treatments) in two gonadotrope cell lines (alpha T(3)-1, L beta T(2)) and 2) in primary pituitary cell cultures from male rats during long-term phorbol ester administration. We demonstrated that, as in alpha T(3)-1 cells, in a more differentiated gonadotrope cell line L beta T(2) the GnRH-receptor coupling (PLC, PLA2, PLD) generated second messengers essential for PKCs activation; the characterized isoforms (alpha, beta II, delta, epsilon, zeta) were selectively and differentially down-regulated by TPA (alpha, beta II, delta, epsilon) or GnRH (delta, epsilon). In whole cell lysates, proteasome inhibitors (proteasome inhibitor I and II, Lactacystin, beta-Lactone, Calpain inhibitor I) prevented in both gonadotrope cell lines the TPA-induced depletion of PKC alpha, epsilon, and the GnRH-elicited PKC epsilon down-regulation; they counteracted in mixed pituitary cell cultures as well, the TPA-evoked PKC alpha, epsilon depletion. In contrast, the inhibitors of calpain(s) and lysosomal proteases (Calpeptin, E64d, Calpain inhibitor II, and PD150606), were ineffective. As shown in alpha T(3)-1 subcellular fractions, proteasome abrogation did not affect membrane translocation of TPA- and GnRH- target isoforms (alpha, epsilon) but, preventing their degradation, favored enzyme accumulation to the membrane compartment. Proteolysis processing of PKCs may be dependent upon their phosphorylated state and/or catalytic activity. Inhibition of PKC catalytic activity (GF109203X, Gö6976), selectively prevented the TPA-evoked PKC alpha depletion in both mixed pituitary cells and alpha T(3)-1 gonadotropes; in alpha T(3)-1 subcellular fractions, PKC alpha inactivation overcame the TPA-evoked isoenzyme degradation by inducing a pronounced membrane accumulation of the isoform without affecting its membrane relocalization. Thus, the proteasome system by adjusting PKC cellular levels, may represent a regulatory proteolytic pathway implicated in the adaptive mechanisms of the time dependent cell responses.
Search on Google
Collection:
01-internacional
Database:
MEDLINE
Main subject:
Pituitary Gland
/
Protein Kinase C
/
Phorbol Esters
/
Cysteine Endopeptidases
/
Down-Regulation
/
Gonadotropin-Releasing Hormone
/
Gonadotropins
/
Multienzyme Complexes
Limits:
Animals
Language:
En
Journal:
Endocrinology
Year:
2002
Document type:
Article
Affiliation country:
France