👤 Danny Halim

Lipid abnormalities are emerging as key pathogenic mechanisms in neurodegenerative diseases, such as Alzheimer's disease, Parkinson's disease, and Lewy body dementia. Astrocytes in the brain provide apolipoprotein E (APOE) proteins and influence neuronal metabolism and health. Using live-cell imaging and objective neurite imaging techniques, we induced cellular lipid load (cholesterol and triglycerides) by inhibiting the lysosomal cholesterol transport protein NPC1 in human neuron-astrocyte cocultures and examined the effects of CRISPR-edited APOE3 and APOE4 human astrocytes on the rescue of dystrophic neurites, where axons and dendrites of nerve cells become disfigured. APOE3, but not APOE4 or APOE knockout, astrocytes prevented cholesterol- and lipid-induced neurite damage in APOE4 neurons. In the media of APOE3 neuron-astrocyte cocultures, high-density lipoprotein-like particles were larger and presumably more lipidated than those in equivalent APOE4 cocultures. This discovery highlights that living APOE3 astrocytes control key biological mechanisms by physiologically enhancing lipid cellular homeostasis and rescuing lipid-induced neurite structural abnormalities relevant to Alzheimer's disease and neurodegenerative diseases. Show less

Futibatinib is the only covalent inhibitor of FGFR1-4 to gain regulatory approval in oncology. In this article, we present genomic analyses of tissue biopsies and circulating tumor DNA (ctDNA) from patients with 1 of nearly 20 tumor types treated with futibatinib in the phase I/II FOENIX study. Eligible patients included those with ctDNA samples collected per protocol at baseline and/or progression on futibatinib in the phase Ib portion of the study for FGF/FGFR-altered advanced solid tumors or the phase II portion of the study for FGFR2 fusion/rearrangement-positive cholangiocarcinoma. Assessments included analytical concordance between tumor and ctDNA analyses for detection of FGFR alterations, association of ctDNA-detected co-occurring genomic alterations with response to futibatinib, and determination of patterns of acquired resistance following progression on futibatinib. Among 300 patients treated with futibatinib, 226 were eligible for this analysis, including 139 (62%) with cholangiocarcinoma. Among patients with known FGFR2 fusions/rearrangements, FGFR1 fusions, FGFR3 fusions, or FGFR2 amplifications per tissue analysis, detection rates in ctDNA for these aberrations were 84%, 0%, 11%, and 59%, respectively. Objective response rates on futibatinib were not significantly different between patients with TP53-altered versus -unaltered solid tumors; progression-free survival was reduced in patients with CDKN2B-altered versus -unaltered cholangiocarcinoma (median 4.8 versus 11.0 months; P = 0.03). Acquired resistance to futibatinib was frequently polyclonal and driven by an array of mutations within the relevant FGFR kinase domain, predominantly V565L, V565F, and N550K variants. In this largest and most systematic analysis of acquired resistance to an FGFR inhibitor from prospective clinical trials, emergence of secondary FGFR2 kinase domain mutations was observed in most patients receiving clinical benefit to futibatinib. ctDNA analysis shows clinically relevant potential as a noninvasive method for assessing genomic profiles, identifying patients who may benefit from FGFR inhibitor treatment, and exploring acquired resistance mechanisms. Show less

Megacystis microcolon intestinal hypoperistalsis syndrome (MMIHS) is a congenital disorder characterized by loss of smooth muscle contraction in the bladder and intestine. To date, three genes are known to be involved in MMIHS pathogenesis: ACTG2, MYH11, and LMOD1. However, for approximately 10% of affected individuals, the genetic cause of the disease is unknown, suggesting that other loci are most likely involved. Here, we report on three MMIHS-affected subjects from two consanguineous families with no variants in the known MMIHS-associated genes. By performing homozygosity mapping and whole-exome sequencing, we found homozygous variants in myosin light chain kinase (MYLK) in both families. We identified a 7 bp duplication (c.3838₃₈₄₄dupGAAAGCG [p.Glu1282_Glyfs Show less

Megacystis microcolon intestinal hypoperistalsis syndrome (MMIHS) is a congenital visceral myopathy characterized by severe dilation of the urinary bladder and defective intestinal motility. The genetic basis of MMIHS has been ascribed to spontaneous and autosomal dominant mutations in actin gamma 2 ( Show less