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| Home > Publications Database > VPS13A Deficiency Leads to Impaired Lipid Distribution and Alteration of Mitochondrial Calcium Homeostasis in Fibroblasts of VPS13A Disease Patients. |
| Home > Publications Database > VPS13A Deficiency Leads to Impaired Lipid Distribution and Alteration of Mitochondrial Calcium Homeostasis in Fibroblasts of VPS13A Disease Patients. |
| Journal Article | DZNE-2026-00373 |
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2026
Wiley
New York, NY
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Please use a persistent id in citations: doi:10.1002/mds.70177
Abstract: Membrane contact sites are crucial for the exchange of ions or lipids and thus are critical for the function and maintenance of organelles. VPS13A is a membrane-residing, bridge-like protein connecting two membranes to enable bulk lipid transfer. Loss-of-function mutations in the VPS13A gene cause VPS13A disease. Previous studies showed alterations of lipid transfer and impaired calcium homeostasis.Although membrane contact sites are becoming increasingly important in neurodegenerative disease research, their contribution to cellular homeostasis is still unclear. We attempted to investigate the consequences of loss of VPS13A function on membrane contact sites and related mechanisms in the context of VPS13A disease.VPS13A-deficient patient-derived fibroblasts were compared with fibroblasts from healthy donors. Specific dyes, labeled fatty acids, and a specific marker for mitochondrial-endoplasmic reticulum contact sites were used to investigate lipid transfer and distribution in involved organelles. Mitochondrial calcium handling was investigated using the calcium indicator Rhod-2, AM. Images were obtained by super-resolution microscopy using Airyscan2 technology.We observed a general disturbance of membrane contact sites in VPS13A disease, accompanied by a reduction in lipid droplet formation, diminished lipid transfer into mitochondria, and unusual mitochondrial calcium uptake behavior in VPS13A disease fibroblasts.Loss of VPS13A causes alterations beyond an impairment of lipid shuttling, which includes a dysregulation of membrane contact sites as well as impaired mitochondrial calcium handling. Accordingly, our findings contribute significantly to the understanding of mechanisms directly or indirectly linked to the function of VPS13A. © 2026 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society. © 2026 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.
Keyword(s): Humans (MeSH) ; Fibroblasts: metabolism (MeSH) ; Calcium: metabolism (MeSH) ; Mitochondria: metabolism (MeSH) ; Homeostasis: physiology (MeSH) ; Vesicular Transport Proteins: deficiency (MeSH) ; Vesicular Transport Proteins: genetics (MeSH) ; Lipid Metabolism: genetics (MeSH) ; Lipid Metabolism: physiology (MeSH) ; Male (MeSH) ; Female (MeSH) ; Adult (MeSH) ; Endoplasmic Reticulum: metabolism (MeSH) ; Bridge‐like lipid‐transport proteins (BLTPs) ; MERCS ; VPS13A ; calcium ; lipids ; mitochondria ; Calcium ; Vesicular Transport Proteins ; VPS13A protein, human
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