Calcium-sensing receptor antagonist (calcilytic) NPS 2143 specifically blocks the increased secretion of endogenous Aß42 prompted by exogenous fibrillary or soluble Aß25-35 in human cortical astrocytes and neurons-therapeutic relevance to Alzheimer's disease.

ABSTRACT

The "amyloid-ß (Aß) hypothesis" posits that accumulating Aß peptides (Aßs) produced by neurons cause Alzheimer's disease (AD). However, the Aßs contribution by the more numerous astrocytes remains undetermined. Previously we showed that fibrillar (f)Aß25-35, an Aß42 proxy, evokes a surplus endogenous Aß42 production/accumulation in cortical adult human astrocytes. Here, by using immunocytochemistry, immunoblotting, enzymatic assays, and highly sensitive sandwich ELISA kits, we investigated the effects of fAß25-35 and soluble (s)Aß25-35 on Aß42 and Aß40 accumulation/secretion by human cortical astrocytes and HCN-1A neurons and, since the calcium-sensing receptor (CaSR) binds Aßs, their modulation by NPS 2143, a CaSR allosteric antagonist (calcilytic). The fAß25-35-exposed astrocytes and surviving neurons produced, accumulated, and secreted increased amounts of Aß42, while Aß40 also accrued but its secretion was unchanged. Accordingly, secreted Aß42/Aß40 ratio values rose for astrocytes and neurons. While slightly enhancing Aß40 secretion by fAß25-35-treated astrocytes, NPS 2143 specifically suppressed the fAß25-35-elicited surges of endogenous Aß42 secretion by astrocytes and neurons. Therefore, NPS 2143 addition always kept Aß42/Aß40 values to baseline or lower levels. Mechanistically, NPS 2143 decreased total CaSR protein complement, transiently raised proteasomal chymotrypsin activity, and blocked excess NO production without affecting the ongoing increases in BACE1/ß-secretase and γ-secretase activity in fAß25-35-treated astrocytes. Compared to fAß25-35, sAß25-35 also stimulated Aß42 secretion by astrocytes and neurons and NPS 2143 specifically and wholly suppressed this effect. Therefore, since NPS 2143 thwarts any Aß/CaSR-induced surplus secretion of endogenous Aß42 and hence further vicious cycles of Aß self-induction/secretion/spreading, calcilytics might effectively prevent/stop the progression to full-blown AD.