A genetic and physiological model of renal dysfunction in Lowe syndrome
Abstract Lowe syndrome (LS) is an X-linked recessive genetic disorder characterized by renal dysfunction, neurodevelopmental defects, and cataract. The affected gene,OCRLencodes for a polyphosphoinositide 5-phosphatase. OCRL is localized to multiple sub-cellular locations in the endolysosomal system and defects in these organelles have been described in human cells depleted of OCRL. However, the relationship of the endolysosomal defects in OCRL depleted cells to the altered physiology of kidney cells of LS patients has not been completely determined. Here we model the kidney phenotypes of LS using aDrosophilanephrocyte model. Using this model system, we demonstrate that OCRL plays a cell-autonomous role in nephrocyte function. Deletion of the only OCRL ortholog inDrosophila(dOCRL) leads to cell-autonomous defects in larval nephrocyte structure and function. Null mutants ofdOCRL(dOCRLKO) show defects in the endolysosomal system of larval nephrocytes that are associated with physiological defects in nephrocyte function. These defects could be rescued by reconstitution with a humanOCRLtransgene but not with a phosphatase dead version or a human LS patient derived mutation. Overall, this work provides a model system to understand the mechanisms by which the sub-cellular changes from loss of OCRL leads to defects in kidney function in human patients..
Medienart: |
Preprint |
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Erscheinungsjahr: |
2024 |
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Erschienen: |
2024 |
Enthalten in: |
bioRxiv.org - (2024) vom: 19. Jan. Zur Gesamtaufnahme - year:2024 |
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Sprache: |
Englisch |
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Beteiligte Personen: |
Ramesh, Navyashree A [VerfasserIn] |
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Links: |
Volltext [kostenfrei] |
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Themen: |
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doi: |
10.1101/2024.01.15.575703 |
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funding: |
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PPN (Katalog-ID): |
XBI042178797 |
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520 | |a Abstract Lowe syndrome (LS) is an X-linked recessive genetic disorder characterized by renal dysfunction, neurodevelopmental defects, and cataract. The affected gene,OCRLencodes for a polyphosphoinositide 5-phosphatase. OCRL is localized to multiple sub-cellular locations in the endolysosomal system and defects in these organelles have been described in human cells depleted of OCRL. However, the relationship of the endolysosomal defects in OCRL depleted cells to the altered physiology of kidney cells of LS patients has not been completely determined. Here we model the kidney phenotypes of LS using aDrosophilanephrocyte model. Using this model system, we demonstrate that OCRL plays a cell-autonomous role in nephrocyte function. Deletion of the only OCRL ortholog inDrosophila(dOCRL) leads to cell-autonomous defects in larval nephrocyte structure and function. Null mutants ofdOCRL(dOCRLKO) show defects in the endolysosomal system of larval nephrocytes that are associated with physiological defects in nephrocyte function. These defects could be rescued by reconstitution with a humanOCRLtransgene but not with a phosphatase dead version or a human LS patient derived mutation. Overall, this work provides a model system to understand the mechanisms by which the sub-cellular changes from loss of OCRL leads to defects in kidney function in human patients. | ||
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