Mammalian prohibitin proteins respond to mitochondrial stress and decrease during cellular senescence.

The two prohibitin proteins, Phb1p and Phb2p(BAP37), have been ascribed various functions, including cell cycle regulation, apoptosis, assembly of mitochondrial respiratory chain enzymes, and aging. We show that the mammalian prohibitins are present in the inner mitochondrial membrane and are always bound to each other, with no free protein detectable. They are coexpressed during development and in adult mammalian tissues, and expression levels are indicative of a role in mitochondrial metabolism, but are not compatible with roles in the regulation of cellular proliferation or apoptosis. High level expression of the proteins is consistently seen in primary human tumors, while cellular senescence of human and chick fibroblasts is accompanied by heterogeneous decreases in both proteins. The two proteins are induced by metabolic stress caused by an imbalance in the synthesis of mitochondrial- and nuclear-encoded mitochondrial proteins, but do not respond to oxidative stress, heat shock, or other cellular stresses. The gene promoter sequences contain binding sites for the Myc oncoprotein and overexpression of Myc induces expression of the prohibitins. The data support conserved roles for the prohibitins in regulating mitochondrial respiratory activity and in aging. Copyright 2001 Academic Press.