Gary Thomas scite author profile

Furin catalyses a simple biochemical reaction -the proteolytic maturation of proprotein substrates in the secretory pathway. But the simplicity of this reaction belies furin's broad and important roles in homeostasis, as well as in diseases ranging from Alzheimer's disease and cancer to anthrax and Ebola fever. This review summarizes various features of furin -its structural and enzymatic properties, intracellular localization, trafficking, substrates, and roles in vivo.Furin is a cellular ENDOPROTEASE that was identified in 1990 (BOX 1); it proteolytically activates large numbers of PROPROTEIN substrates in secretory pathway compartments. As well as activating pathogenic agents (BOX 2), furin has an essential role in embryogenesis, and catalyses the maturation of a strikingly diverse collection of proprotein substrates. These range from growth factors and receptors to extracellular-matrix proteins and even other protease systems that control disease. Until recently, furin was thought to be an unglamorous housekeeping protein; however, furin's crucial role in so many different cellular events -and in diseases ranging from from anthrax and bird flu (BOX 2) to cancer, dementia and Ebola fever -has caused researchers to re-evaluate it. In this review, I summarize the various features of furin: its structural and enzymatic properties, autoactivation, intracellular localization and trafficking; its substrates; and its roles in vivo, including the requirement for furin in determining the PATHOGENICITY of many viruses and bacteria.

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PACS-2 controls endoplasmic reticulum–mitochondria communication and Bid-mediated apoptosis

Simmen

Aslan

Blagoveshchenskaya

et al. 2005

EMBO J

495

429

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The endoplasmic reticulum (ER) and mitochondria form contacts that support communication between these two organelles, including synthesis and transfer of lipids, and the exchange of calcium, which regulates ER chaperones, mitochondrial ATP production, and apoptosis. Despite the fundamental roles for ER-mitochondria contacts, little is known about the molecules that regulate them. Here we report the identification of a multifunctional sorting protein, PACS-2, that integrates ER-mitochondria communication, ER homeostasis, and apoptosis. PACS-2 controls the apposition of mitochondria with the ER, as depletion of PACS-2 causes BAP31-dependent mitochondria fragmentation and uncoupling from the ER. PACS-2 also controls formation of ER lipid-synthesizing centers found on mitochondria-associated membranes and ER homeostasis. However, in response to apoptotic inducers, PACS-2 translocates Bid to mitochondria, which initiates a sequence of events including the formation of mitochondrial truncated Bid, the release of cytochrome c, and the activation of caspase-3, thereby causing cell death. Together, our results identify PACS-2 as a novel sorting protein that links the ER-mitochondria axis to ER homeostasis and the control of cell fate, and provide new insights into Bid action.

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PACS-1 Defines a Novel Gene Family of Cytosolic Sorting Proteins Required for trans-Golgi Network Localization

Wan

Molloy

Thomas

et al. 1998

Cell

357

396

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We report the role of one member of a novel gene family, PACS-1, in the localization of trans-Golgi network (TGN) membrane proteins. PACS-1 directs the TGN localization of furin by binding to the protease's phosphorylated cytosolic domain. Antisense studies show TGN localization of furin and mannose-6-phosphate receptor, but not TGN46, is strictly dependent on PACS-1. Analyses in vitro and in vivo show PACS-1 has properties of a coat protein and connects furin to components of the clathrin-sorting machinery. Cell-free assays indicate TGN localization of furin is directed by a PACS-1-mediated retrieval step. Together, these findings explain a mechanism by which membrane proteins in mammalian cells are localized to the TGN.

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HIV-1 Nef Downregulates MHC-I by a PACS-1- and PI3K-Regulated ARF6 Endocytic Pathway

Blagoveshchenskaya

Thomas

Féliciangéli

et al. 2002

Cell

273

358

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The HIV-1 Nef-mediated downregulation of cell surface MHC-I molecules to the trans-Golgi network (TGN) enables HIV-1 to escape immune surveillance. However, the cellular pathway used by Nef to downregulate MHC-I is unknown. Here, we show that Nef and PACS-1 combine to usurp the ARF6 endocytic pathway by a PI3K-dependent process and downregulate cell surface MHC-I to the TGN. This mechanism requires the hierarchical actions of three Nef motifs-the acidic cluster 62EEEE(65), the SH3 domain binding site 72PXXP(75), and M(20)-in controlling PACS-1-dependent sorting to the TGN, ARF6 activation, and sequestering internalized MHC-I to the TGN, respectively. These data provide new insights into the cellular basis of HIV-1 immunoevasion.

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Gary Thomas

Furin at the cutting edge: From protein traffic to embryogenesis and disease

PACS-2 controls endoplasmic reticulum–mitochondria communication and Bid-mediated apoptosis

PACS-1 Defines a Novel Gene Family of Cytosolic Sorting Proteins Required for trans-Golgi Network Localization

HIV-1 Nef Downregulates MHC-I by a PACS-1- and PI3K-Regulated ARF6 Endocytic Pathway

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