Caveolae are plasma membrane specializations formed by caveolin and charact
erized by their dependence on membrane cholesterol for structural integrity
. We have investigated the role of caveolae in the internalization of GH in
CHO cells stably transfected with GH receptor cDNA (CHO-GHR(1-638)). We sh
ow by immunogold electron microscopy that a portion of the GH receptor at t
he cell surface is localized to or near caveolin-containing structures and
upon GH stimulation the receptor aggregates in caveolae. Similarly the horm
one is observed to be aggregated in caveolae and a portion of the hormone i
s internalized into the cell in caveolin-containing vesicles. Disruption of
caveolar integrity by sterol-binding agents (filipin, nystatin) partially
inhibits internalization of I-125-hGH whereas internalization of hormone is
not affected by nonsterol-binding agents which also insert into the cell m
embrane (polymyxin B, xylazine), Transient transfection of caveolin cDNA in
to CHO cells concomitantly transfected with GH receptor cDNA increases both
the internalization of hormone and the GH stimulation of STAT-mediated tra
nscription. In conclusion, we demonstrate that caveolae constitute one path
way for the internalization of GH. Such an internalization pathway may also
be utilized by other members of the cytokine receptor superfamily. (C) 199
9 Academic Press.