Agnes Roczniak-Ferguson scite author profile

Lysosomes are the major cellular site for clearance of defective organelles and digestion of internalized material. Demand on lysosomal capacity varies greatly, but the mechanisms that adjust lysosomal function to maintain cellular homeostasis are unknown. In this study, we identify an interaction between mTOR and the TFEB transcription factor on the surface of lysosomes that allows mTOR to transduce signals arising from changes in lysosomal status to TFEB and thus control the ability of TFEB to enter the nucleus. This occurs via regulation of the serine 211 phosphorylation-dependent binding of 14-3-3 proteins to TFEB. These results identify TFEB as a novel target of mTOR that couples the transcriptional regulation of genes encoding proteins of autophagosomes and lysosomes to cellular need. We further present evidence that the closely related MITF and TFE3 transcription factors are regulated in a similar manner, thus broadening the range of physiological contexts under which such regulation may prove important.

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Recruitment of folliculin to lysosomes supports the amino acid–dependent activation of Rag GTPases

Petit

2013

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Emerging roles for p120-catenin in cell adhesion and cancer

2004

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Although originally identified as a Src substrate, p120-catenin (p120) is now known to regulate cell-cell adhesion through its interaction with the cytoplasmic tail of classical and type II cadherins. New evidence indicates that p120 regulates cadherin turnover at the cell surface, thereby controlling the amount of cadherin available for cell-cell adhesion. This function is necessary but not sufficient to promote strong adhesion, which is further controlled by signals acting on the amino-terminal p120 regulatory domain. p120 also modulates the activities of RhoA, Rac, and Cdc42, suggesting that along with other Src substrates, p120 regulates actin dynamics. Thus, p120 is a master regulator of cadherin abundance and activity, and likely participates in regulating the balance between adhesive and motile cellular phenotypes. This review summarizes recent progress in understanding mechanisms of p120 action, and discusses new implications with respect to roles for p120 in disease and cancer.

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C9orf72 binds SMCR8, localizes to lysosomes, and regulates mTORC1 signaling

Amick

Roczniak-Ferguson

Ferguson

2016

MBoC

163

228

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Overlapping roles of JIP3 and JIP4 in promoting axonal transport of lysosomes in human iPSC-derived neurons

Gowrishankar

Lyons

Rafiq

et al. 2021

MBoC

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The dependence of neurons on microtubule-based motors for the movement of lysosomes over long distances raises questions about adaptations that allow neurons to meet these demands. Recently, JIP3/MAPK8IP3, a neuronally enriched putative adaptor between lysosomes and motors, was identified as a critical regulator of axonal lysosome abundance. In this study, we establish a human induced pluripotent stem cell (iPSC)-derived neuron model for the investigation of axonal lysosome transport and maturation and show that loss of JIP3 results in the accumulation of axonal lysosomes and the Alzheimer's disease-related amyloid precursor protein (APP)-derived Aβ42 peptide. We furthermore reveal an overlapping role of the homologous JIP4 gene in lysosome axonal transport. These results establish a cellular model for investigating the relationship between lysosome axonal transport and amyloidogenic APP processing and more broadly demonstrate the utility of human iPSC-derived neurons for the investigation of neuronal cell biology and pathology. [Media: see text] [Media: see text] [Media: see text] [Media: see text]

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