Notch1 plays various roles in cancer development, and Notch1-induced transactivation is controlled by phosphorylation of its cleaved intracellular domain. However, it is unclear whether there are phos Show more
Notch1 plays various roles in cancer development, and Notch1-induced transactivation is controlled by phosphorylation of its cleaved intracellular domain. However, it is unclear whether there are phosphatases capable of dephosphorylating the cleaved Notch1 transmembrane/intracellular region (NTM) to regulate its function. Here, we show that DUSP6 can function as a phosphatase for Notch1, thereby regulating NTM stability and transcriptional activity, thus influencing colorectal cancer (CRC) development. In human CRC cells, elevated DUSP6 expression correlates with increased NTM levels, leading to enhanced CRC cell proliferation both in vitro and in vivo. High tumoral DUSP6 protein expression is associated with poorer overall CRC patient survival. In mice, DUSP6 deficiency results in reduced CRC development. Mechanistically, DUSP6 dephosphorylates phospho-Y2116, which in turn reduces NTM ubiquitination, leading to increased NTM stability and transcriptional activity. As a result, the expression of Notch1-targeted proliferation genes is increased to promote tumour cell growth. Show less
Brendan Jen-Wei Tan, Xin-Ler Pang, Sarah Png+2 more · 2024 · The Canadian journal of neurological sciences. Le journal canadien des sciences neurologiques · added 2026-04-24
Genetic association studies have not produced consistent results in restless legs syndrome (RLS). To conduct a systematic review on genetic association studies in RLS to highlight the common gene vari Show more
Genetic association studies have not produced consistent results in restless legs syndrome (RLS). To conduct a systematic review on genetic association studies in RLS to highlight the common gene variants and ethnic differences. We conducted Pubmed, Embase, and Cochrane search using terms "Genetic association studies" and "restless legs syndrome" for candidate gene-based studies. Out of the initial 43 studies, 18 case control studies (from 2012 to 2022) were included. Thirteen studies including 10794 Caucasian subjects (4984 RLS cases and 5810 controls) and five studies involving 2009 Asian subjects (796 RLS cases and 1213 controls) were tabulated and analyzed. In addition, three Genome-Wide Association Studies (GWAS) in Asians and Europeans/Caucasians were included for comparisons. In the Asian population, gene variants in BST1, SNCA Rep1, IL1B, BTBD9, and MAP2K5/SKOR1 increased the risk of RLS (odds ratio range 1.2-2.8). In Caucasian populations, examples of variants that were associated with an increased risk of RLS (odds ratio range 1.1-1.9) include those in GABRR3 TOX3, ADH1B, HMOX1, GLO1, DCDC2C, BTBD9, SKOR1, and SETBP1. Based on the meta-analysis of GWAS studies, the rs9390170 variant in UTRN gene was identified to be a novel genetic marker for RLS in Asian cohorts, whereas rs113851554 in MEIS1 gene was a strong genetic factor among the >20 identified gene variants for RLS in Caucasian populations. Our systemic review demonstrates that multiple genetic variants modulate risk of RLS in Caucasians (such as MEIS1 BTBD9, MAP2K5) and in Asians (such as BTBD9, MAP2K5, and UTRN). Show less