Margo Montandon scite author profile

Margo Montandon

3Publications

11Citation Statements Received

290Citation Statements Given

How they've been cited

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206

286

Affiliations

Australian Regenerative Medicine Institute, Monash University, Institute of Research on Cancer and Aging in Nice

Publications

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Telomerase is required for glomerular renewal in kidneys of adult mice

Montandon

Yart

et al. 2022

npj Regen Med

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Homeostatic renal filtration relies on the integrity of podocytes, which function in glomerular filtration. These highly specialized cells are damaged in 90% of chronic kidney disease, representing the leading cause of end-stage renal failure. Although modest podocyte renewal has been documented in adult mice, the mechanisms regulating this process remain largely unknown and controversial. Using a mouse model of Adriamycin-induced nephropathy, we find that the recovery of filtration function requires up-regulation of the endogenous telomerase component TERT. Previous work has shown that transient overexpression of catalytically inactive TERT (i-TERTci mouse model) has an unexpected role in triggering dramatic podocyte proliferation and renewal. We therefore used this model to conduct specific and stochastic lineage-tracing strategies in combination with high throughput sequencing methods. These experiments provide evidence that TERT drives the activation and clonal expansion of podocyte progenitor cells. Our findings demonstrate that the adult kidney bears intrinsic regenerative capabilities involving the protein component of telomerase, paving the way for innovative research toward the development of chronic kidney disease therapeutics.

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FKRP directed fibronectin glycosylation: A novel mechanism giving insights into muscular dystrophies?

et al. 2022

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The recently uncovered role of Fukutin‐related protein (FKRP) in fibronectin glycosylation has challenged our understanding of the basis of disease pathogenesis in the muscular dystrophies. FKRP is a Golgi‐resident glycosyltransferase implicated in a broad spectrum of muscular dystrophy (MD) pathologies that are not fully attributable to the well‐described α‐Dystroglycan hypoglycosylation. By revealing a new role for FKRP in the glycosylation of fibronectin, a modification critical for the development of the muscle basement membrane (MBM) and its associated muscle linkages, new possibilities for understanding clinical phenotype arise. This modification involves an interaction between FKRP and myosin‐10, a protein involved in the Golgi organization and function. These observations suggest a FKRP nexus exists that controls two critical aspects to muscle fibre integrity, both fibre stability at the MBM and its elastic properties. This review explores the new potential disease axis in the context of our current knowledge of muscular dystrophies.

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Examining Muscle Regeneration in Zebrafish Models of Muscle Disease

Montandon

Currie

Ruparelia

2021

JoVE

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Margo Montandon

Telomerase is required for glomerular renewal in kidneys of adult mice

FKRP directed fibronectin glycosylation: A novel mechanism giving insights into muscular dystrophies?

Examining Muscle Regeneration in Zebrafish Models of Muscle Disease

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