Vincent Corvest scite author profile

Cytochromes c are metalloproteins that function in electron transfer reactions and contain a heme moiety covalently attached via thioether linkages between the co-factor and a CXXCH motif in the protein. Covalent attachment of the heme group occurs on the positive side of all energy-transducing membranes (bacterial periplasm, mitochondrial intermembrane space and thylakoid lumen) and requires minimally: 1) synthesis and translocation of the apocytochromes c and heme across at least one biological membrane, 2) reduction of apocytochromes c and heme and maintenance under a reduced form prior to 3) catalysis of the heme attachment reaction. Surprisingly, the conversion of apoforms of cytochromes c to their respective holoforms occurs through at least three different pathways (systems I, II and III). In this review, we detail the assembly process of soluble cytochrome c and membrane-bound cytochrome c1, the only two mitochondrial c-type cytochromes that function in respiration. Mitochondrial c-type cytochromes are matured in the intermembrane space via the system I or system III pathway, an intriguing finding considering that the biochemical requirements for cytochrome c maturation are believed to be common regardless of the energy-transducing membrane under study.

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BAG3 promotes pancreatic ductal adenocarcinoma growth by activating stromal macrophages

Rosati

Basile

D'Auria

et al. 2015

Nat Commun

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The incidence and death rate of pancreatic ductal adenocarcinoma (PDAC) have increased in recent years, therefore the identification of novel targets for treatment is extremely important. Interactions between cancer and stromal cells are critically involved in tumour formation and development of metastasis. Here we report that PDAC cells secrete BAG3, which binds and activates macrophages, inducing their activation and the secretion of PDAC supporting factors. We also identify IFITM-2 as a BAG3 receptor and show that it signals through PI3K and the p38 MAPK pathways. Finally, we show that the use of an anti-BAG3 antibody results in reduced tumour growth and prevents metastasis formation in three different mouse models. In conclusion, we identify a paracrine loop involved in PDAC growth and metastatic spreading, and show that an anti-BAG3 antibody has therapeutic potential.

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CCS5, a Thioredoxin-like Protein Involved in the Assembly of Plastid c-Type Cytochromes

Gabilly

Dreyfuss²,

Karamoko

et al. 2010

Journal of Biological Chemistry

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The c-type cytochromes are metalloproteins with a heme molecule covalently linked to the sulfhydryls of a CXXCH hemebinding site. In plastids, at least six assembly factors are required for heme attachment to the apo-forms of cytochrome f and cytochrome c 6 in the thylakoid lumen. CCS5, controlling plastid cytochrome c assembly, was identified through insertional mutagenesis in the unicellular green alga Chlamydomonas reinhardtii. The complementing gene encodes a protein with similarity to Arabidopsis thaliana HCF164, which is a thylakoid membrane-anchored protein with a lumen-facing thioredoxinlike domain. HCF164 is required for cytochrome b 6 f biogenesis, but its activity and site of action in the assembly process has so far remained undeciphered. We show that CCS5 is a component of a trans-thylakoid redox pathway and operates by reducing the CXXCH heme-binding site of apocytochrome c prior to the heme ligation reaction. The proposal is based on the following findings: 1) the ccs5 mutant is rescued by exogenous thiols; 2) CCS5 interacts with apocytochrome f and c 6 in a yeast two-hybrid assay; and 3) recombinant CCS5 is able to reduce a disulfide in the CXXCH heme-binding site of apocytochrome f.

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Redox Processes Controlling the Biogenesis ofc-Type Cytochromes

Bonnard

Corvest

Meyer

et al. 2010

Antioxidants & Redox Signaling

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In mitochondria, two mono heme c-type cytochromes are essential electron shuttles of the respiratory chain. They are characterized by the covalent attachment of their heme C to a CXXCH motif in the apoproteins. This post-translational modification occurs in the intermembrane space compartment. Dedicated assembly pathways have evolved to achieve this chemical reaction that requires a strict reducing environment. In mitochondria, two unrelated machineries operate, the rather simple System III in yeast and animals and System I in plants and some protozoans. System I is also found in bacteria and shares some common features with System II that operates in bacteria and plastids. This review aims at presenting how different systems control the chemical requirements for the heme ligation in the compartments where cytochrome c maturation takes place. A special emphasis will be given on the redox processes that are required for the heme attachment reaction onto apocytochromes c.

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Spatiotemporal regulation of Rho1 and Cdc42 activity during Candida albicans filamentous growth

Corvest

Bogliolo

Follette

et al. 2013

Molecular Microbiology

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SummaryRho G-proteins are critical for polarized growth, yet little is known about the dynamics of their activation during fungal filamentous growth. We first investigated the roles of Rho1 and Rho2 during Candida albicans filamentous growth. Our results show that Rho1 is required for invasive filamentous growth and that Rho2 is not functionally redundant with Rho1. Using fluorescent reporters, we examined the dynamics of the active form of Rho1 and Cdc42 during initiation and maintenance of hyphal growth. Quantitative analyses indicated that the distribution, but not the level, of these active G-proteins is altered during initial polarization upon germ tube emergence. A comparison of the dynamics of these active G-proteins during budding and hyphal growth indicates that a higher concentration of active Cdc42 was recruited to the germ tube tip than to the bud tip. During hyphal elongation, active Cdc42 remained tightly restricted to the hyphal tip, whereas active Rho1 was broadly associated with the apex and subsequently recruited to the cell division site. Furthermore, our data suggest that phosphoinositide-bis-phosphates are critical to stabilize active Rho1 at the growth site. Together, our results point towards different regulation of Cdc42 and Rho1 activity during initiation and maintenance of filamentous growth.

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Vincent Corvest

Biochemical requirements for the maturation of mitochondrial c-type cytochromes

BAG3 promotes pancreatic ductal adenocarcinoma growth by activating stromal macrophages

CCS5, a Thioredoxin-like Protein Involved in the Assembly of Plastid c-Type Cytochromes

Redox Processes Controlling the Biogenesis ofc-Type Cytochromes

Spatiotemporal regulation of Rho1 and Cdc42 activity during Candida albicans filamentous growth

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