The induction of macroautophagy/autophagy upon glucose deprivation can occur independently of the PIK3C3/VPS34 complex. Recently, we described a non-canonical signaling pathway involving the kinases A Show more
The induction of macroautophagy/autophagy upon glucose deprivation can occur independently of the PIK3C3/VPS34 complex. Recently, we described a non-canonical signaling pathway involving the kinases AMPK, ULK1 and PIKFYVE that are induced during glucose starvation, leading to the formation of PtdIns5P-containing autophagosomes, resulting in increased autophagy flux and clearance of autophagy substrates. In this cascade, the activation of AMPK leads to ULK1 phosphorylation. ULK1 then phosphorylates PIKFYVE at S1548, leading to its activation and increased PtdIns5P formation, which enables the recruitment of machinery required for autophagosome biogenesis. Show less
Huntington's disease is caused by expansion of a polyglutamine tract found in the amino-terminal of the ubiquitously expressed protein huntingtin. Well studied in its mutant form, huntingtin has a wid Show more
Huntington's disease is caused by expansion of a polyglutamine tract found in the amino-terminal of the ubiquitously expressed protein huntingtin. Well studied in its mutant form, huntingtin has a wide variety of normal functions, loss of which may also contribute to disease progression. Widespread transcriptional dysfunction occurs in brains of Huntington's disease patients and in transgenic mouse and cell models of Huntington's disease. To identify new transcriptional pathways altered by the normal and/or abnormal function of huntingtin, we probed several nuclear receptors, normally expressed in the brain, for binding to huntingtin in its mutant and wild-type forms. Wild-type huntingtin could bind to a number of nuclear receptors; LXRalpha, PPARgamma, VDR and TRalpha1. Over-expression of huntingtin activated, while knockout of huntingtin decreased, LXR mediated transcription of a reporter gene. Loss of huntingtin also decreased expression of the LXR target gene, ABCA1. In vivo, huntingtin deficient zebrafish had a severe phenotype and reduced expression of LXR regulated genes. An LXR agonist was able to partially rescue the phenotype and the expression of LXR target genes in huntingtin deficient zebrafish during early development. Our data suggest a novel function for wild-type huntingtin as a co-factor of LXR. However, this activity is lost by mutant huntingtin that only interacts weakly with LXR. Show less