Patricia M. Rusu scite author profile

GDF-15 is a widely expressed distant member of the TGF-ß superfamily with prominent neurotrophic effects on midbrain dopaminergic neurons. We show here that GDF-15 deficient mice exhibit progressive postnatal losses of spinal, facial, and trigeminal motoneurons. This deficit reaches a ~20% maximum at 6 months and is accompanied by losses of motor axons and significant impairment of rotarod skills. Similarly, sensory neurons in dorsal root ganglia (L4, L5) are reduced by 20%, while sympathetic neurons are not affected. GDF-15 is expressed and secreted by Schwann cells, retrogradely transported along adult sciatic nerve axons, and promotes survival of axotomized facial neurons as well as cultured motor, sensory, and sympathetic neurons. Despite striking similarities in the GDF-15 and CNTF knockout phenotypes, expression levels of CNTF and other neurotrophic factors in the sciatic nerve were unaltered suggesting that GDF-15 is a genuine novel trophic factor for motor and sensory neurons.

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Restriction of essential amino acids dictates the systemic metabolic response to dietary protein dilution

Yap

Rusu

Chan

et al. 2020

Nat Commun

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Dietary protein dilution (DPD) promotes metabolic-remodelling and-health but the precise nutritional components driving this response remain elusive. Here, by mimicking amino acid (AA) supply from a casein-based diet, we demonstrate that restriction of dietary essential AA (EAA), but not non-EAA, drives the systemic metabolic response to total AA deprivation; independent from dietary carbohydrate supply. Furthermore, systemic deprivation of threonine and tryptophan, independent of total AA supply, are both adequate and necessary to confer the systemic metabolic response to both diet, and genetic AA-transport loss, driven AA restriction. Dietary threonine restriction (DTR) retards the development of obesityassociated metabolic dysfunction. Liver-derived fibroblast growth factor 21 is required for the metabolic remodelling with DTR. Strikingly, hepatocyte-selective establishment of threonine biosynthetic capacity reverses the systemic metabolic response to DTR. Taken together, our studies of mice demonstrate that the restriction of EAA are sufficient and necessary to confer the systemic metabolic effects of DPD.

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The carboxy-terminal domain of complexin I stimulates liposome fusion

Malsam

Seiler

Schollmeier

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

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Regulated exocytosis requires tight coupling of the membrane fusion machinery to a triggering signal and a fast response time. Complexins are part of this regulation and, together with synaptotagmins, control calcium-dependent exocytosis. Stimulatory and inhibitory functions have been reported for complexins. To test if complexins directly affect membrane fusion, we analyzed the 4 known mammalian complexin isoforms in a reconstituted fusion assay. In contrast to complexin III (CpxIII) and CpxIV, CpxI and CpxII stimulated soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE)-pin assembly and membrane fusion. This stimulatory effect required a preincubation at low temperature and was specific for neuronal t-SNAREs. Stimulation of membrane fusion was lost when the carboxy-terminal domain of CpxI was deleted or serine 115, a putative phosphorylation site, was mutated. Transfer of the carboxy-terminal domain of CpxI to CpxIII resulted in a stimulatory CpxIII-I chimera. Thus, the carboxyterminal domains of CpxI and CpxII promote the fusion of highcurvature liposomes.exocytosis ͉ SNARE

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GPD1 Specifically Marks Dormant Glioma Stem Cells with a Distinct Metabolic Profile

et al. 2019

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Patricia M. Rusu

Progressive Postnatal Motoneuron Loss in Mice Lacking GDF-15

Restriction of essential amino acids dictates the systemic metabolic response to dietary protein dilution

The carboxy-terminal domain of complexin I stimulates liposome fusion

GPD1 Specifically Marks Dormant Glioma Stem Cells with a Distinct Metabolic Profile

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