Variable Bax antigenicity is linked to keratinocyte position within epidermal strata and UV-induced apoptosis.

Pro- and anti-apoptotic members of the Bcl-2 family are fundamental in the control of apoptosis. Among them, Bax plays a key role in apoptosis induction by mediating the release of apoptogenic factors from mitochondria to the cytosol. In this report, we investigated, by immunohistofluorescence, the in vivo distribution of Bax in normal human epidermis before and 24 h after exposure to solar-simulated radiation. Bax expression was evaluated with three different, Western blot pretested, anti-Bax antibodies (Ab) and correlated with markers of keratinocyte differentiation and apoptosis using anti-beta(1) integrin and anti-active caspase-3 Abs respectively. Using anti-Bax N20 and A-3533 polyclonal Ab, we found that, whereas undifferentiated keratinocytes of the basal proliferative compartment contained Bax in the cytosol, the differentiated suprabasal cells had Bax mainly in the nucleus. This immunoreactivity pattern was not modified by skin irradiation. Interestingly, the well known apoptosis-related Bax redistribution to mitochondria in response to a cell death signal, could be detected only with yet another, the 2D2 monoclonal Ab. This relocalization occurred specifically in apoptotic, active caspase-3 positive cells of irradiated epidermis. Our data highlight the differentiation- and apoptosis-associated changes in the pattern of Bax subcellular and cellular distribution as uncovered by different anti-Bax Abs and suggest that Bax undergoes successive activation that progresses in parallel with keratinocyte differentiation and apoptosis.

Induction of apoptosis-like mitochondrial impairment triggers antioxidant and Bcl-2-dependent keratinocyte differentiation.

Terminally differentiated keratinocytes are dead enucleated squams. We showed previously that the mitochondria-dependent cell death pathway might be gradually activated as differentiation progresses. In this study, we demonstrated that protoporphyrin IX, staurosporine, and rotenone induced apoptotic-like changes in the mitochondria, and early differentiation of keratinocytes without inducing apoptosis. Kinetics studies established that differentiation-related changes, including growth arrest, flattened morphology, stratification, and keratin 10 (K10) expression, were downstream of mitochondrial depolarization and proliferation, reactive oxygen species (ROS) production, and release of cytochrome c and apoptosis-inducing factor. When these changes were prevented by overexpressing Bcl-2 or pharmacologically decreasing the ROS level, K10 upregulation was inhibited, implying that the differentiated phenotype and K10 expression require apoptotic mitochondria, ROS being the most likely differentiation-mediating factor. Our data also suggest that the same mitochondria-affecting stimuli can induce either differentiation or apoptosis, depending on the keratinocyte's competency to undergo differentiation, a competency that may be controlled by Bcl-2.