RESUMO
Astrocytes in amyloid-ß (Aß)42-accumulating human brains afflicted with Alzheimer's disease (AD) upregulate vascular endothelial growth factor (VEGF)-A synthesis and also become loaded with Aß42. We have already shown that Aß(25-35) (surrogate of Aß42)-induced VEGF-A production in 'normoxic' cultures of early passage normal human cerebral astrocytes (NAHAs) is mediated by the stabilization of VEGF gene-stimulating hypoxia-inducible factor (HIF)-1α and nuclear translocation of HIF-1αâ¢HIF-1ß complexes. We have now found that treating these NAHAs with Aß(25-35) also stimulates them to make Aß42 (appearing in immunoblots as several bands with M(r)'s from 8 kDa upwards), whose levels peak at 48 h (2.8-fold versus 0 h, p < 0.001) and then start falling slowly. This rise of Aß42 peptide production coincides with a transiently increased flow of HIF-1α (therefore HIF-1αâ¢HIF-1ß complexes; at 24 h, 1.5-fold versus 0 h, p < 0.001) into the nucleus and transient surges first of ß-secretase (BACE-1/ß-S) mRNA expression (1.2-fold versus 0 h, p = 0.013) and activity peaking at 24-h (1.4-fold versus 0 h, p = 0.001), and then of γ-secretase (γ-S) activity cresting at 48 h (1.6-fold versus 0 h, p < 0.001) that cleave the Aß42 peptides from amyloid-ß protein precursor. Since the genes encoding components of these two secretases have the same HIF-1αâ¢HIF-1ß-responsive elements in their promoters as the VEGF gene, these observations suggest that the Aß42 released from neurons in the AD brain can recruit associated astrocytes via HIF-1αâ¢HIF-1ß signaling into the pool of Aß42-producing cells. In other words, Aß42 begets Aß42 in NAHAs.