Diego L. Medina scite author profile

Autophagy is a cellular catabolic process that relies on the cooperation of autophagosomes and lysosomes. During starvation, the cell expands both compartments to enhance degradation processes. We found that starvation activates a transcriptional program that controls major steps of the autophagic pathway, including autophagosome formation, autophagosome-lysosome fusion and substrate degradation. The transcription factor EB (TFEB), a master gene for lysosomal biogenesis, coordinated this program by driving expression of autophagy and lysosomal genes. Nuclear localization and activity of TFEB were regulated by serine phosphorylation mediated by the extracellular signal-regulated kinase 2, whose activity was tuned by the levels of extracellular nutrients. Thus, a mitogen-activated protein kinase-dependent mechanism regulates autophagy by controlling the biogenesis and partnership of two distinct cellular organelles.

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A Gene Network Regulating Lysosomal Biogenesis and Function

Sardiello

Palmieri

Ronza

et al. 2009

Science

2,130

2,386

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Lysosomes are organelles central to degradation and recycling processes in animal cells. Whether lysosomal activity is coordinated to respond to cellular needs remains unclear. We found that most lysosomal genes exhibit coordinated transcriptional behavior and are regulated by the transcription factor EB (TFEB). Under aberrant lysosomal storage conditions, TFEB translocated from the cytoplasm to the nucleus, resulting in the activation of its target genes. TFEB overexpression in cultured cells induced lysosomal biogenesis and increased the degradation of complex molecules, such as glycosaminoglycans and the pathogenic protein that causes Huntington's disease. Thus, a genetic program controls lysosomal biogenesis and function, providing a potential therapeutic target to enhance cellular clearing in lysosomal storage disorders and neurodegenerative diseases.

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A lysosome-to-nucleus signalling mechanism senses and regulates the lysosome via mTOR and TFEB

et al. 2012

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A lysosome-to-nucleus signalling mechanism senses and regulates the lysosome via mTOR and TFEBUnder basal conditions TFEB, a master regulator of lysosomal biogenesis, is sequestered in the cytosol due to mTORC1-dependent phosphorylation at the lysosomal membrane. Nutrient starvation or lysosomal dysfunction inhibit mTORC1 activity and induce nuclear translocation of TFEB inducing target gene expression.

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Signals from the lysosome: a control centre for cellular clearance and energy metabolism

Settembre

Fraldi

Medina

et al. 2013

Nat Rev Mol Cell Biol

1,416

1,287

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Preface For a long time lysosomes were considered merely to be cellular “incinerators” involved in the degradation and recycling of cellular waste. However, there is now compelling evidence indicating that lysosomes have a much broader function and that they are involved in fundamental processes such as secretion, plasma membrane repair, signaling and energy metabolism. Furthermore, the essential role of lysosomes in the autophagic pathway puts these organelles at the crossroads of several cellular processes, with significant implications for health and disease. The identification of a master gene, transcription factor EB (TFEB), that regulates lysosomal biogenesis and autophagy, has revealed how the lysosome adapts to environmental cues, such as starvation, and suggests novel therapeutic strategies for modulating lysosomal function in human disease.

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Diego L. Medina

Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)

TFEB Links Autophagy to Lysosomal Biogenesis

A Gene Network Regulating Lysosomal Biogenesis and Function

A lysosome-to-nucleus signalling mechanism senses and regulates the lysosome via mTOR and TFEB

Signals from the lysosome: a control centre for cellular clearance and energy metabolism

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