Seba Almedawar scite author profile

Cohesin is a protein complex that ties sister DNA molecules from the time of DNA replication until the metaphase to anaphase transition. Current models propose that the association of the Smc1, Smc3, and Scc1/Mcd1 subunits creates a ring-shaped structure that entraps the two sister DNAs. Cohesin is essential for correct chromosome segregation and recombinational repair. Its activity is therefore controlled by several posttranslational modifications, including acetylation, phosphorylation, sumoylation, and site-specific proteolysis. Here we show that cohesin sumoylation occurs at the time of cohesion establishment, after cohesin loading and ATP binding, and independently from Eco1-mediated cohesin acetylation. In order to test the functional relevance of cohesin sumoylation, we have developed a novel approach in budding yeast to deplete SUMO from all subunits in the cohesin complex, based on fusion of the Scc1 subunit to a SUMO peptidase Ulp domain (UD). Downregulation of cohesin sumoylation is lethal, and the Scc1-UD chimeras have a failure in sister chromatid cohesion. Strikingly, the unsumoylated cohesin rings are acetylated. Our findings indicate that SUMO is a novel molecular determinant for the establishment of sister chromatid cohesion, and we propose that SUMO is required for the entrapment of sister chromatids during the acetylation-mediated closure of the cohesin ring.

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ATPase-Dependent Control of the Mms21 SUMO Ligase during DNA Repair

Bermúdez-López

Pociño-Merino

Sánchez

et al. 2015

PLoS Biol

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Modification of proteins by SUMO is essential for the maintenance of genome integrity. During DNA replication, the Mms21-branch of the SUMO pathway counteracts recombination intermediates at damaged replication forks, thus facilitating sister chromatid disjunction. The Mms21 SUMO ligase docks to the arm region of the Smc5 protein in the Smc5/6 complex; together, they cooperate during recombinational DNA repair. Yet how the activity of the SUMO ligase is controlled remains unknown. Here we show that the SUMO ligase and the chromosome disjunction functions of Mms21 depend on its docking to an intact and active Smc5/6 complex, indicating that the Smc5/6-Mms21 complex operates as a large SUMO ligase in vivo. In spite of the physical distance separating the E3 and the nucleotide-binding domains in Smc5/6, Mms21-dependent sumoylation requires binding of ATP to Smc5, a step that is part of the ligase mechanism that assists Ubc9 function. The communication is enabled by the presence of a conserved disruption in the coiled coil domain of Smc5, pointing to potential conformational changes for SUMO ligase activation. In accordance, scanning force microscopy of the Smc5-Mms21 heterodimer shows that the molecule is physically remodeled in an ATP-dependent manner. Our results demonstrate that the ATP-binding activity of the Smc5/6 complex is coordinated with its SUMO ligase, through the coiled coil domain of Smc5 and the physical remodeling of the molecule, to promote sumoylation and chromosome disjunction during DNA repair.

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MERTK-Dependent Ensheathment of Photoreceptor Outer Segments by Human Pluripotent Stem Cell-Derived Retinal Pigment Epithelium

et al. 2020

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Maintenance of a healthy photoreceptor-retinal pigment epithelium (RPE) interface is essential for vision. At the center of this interface, apical membrane protrusions stemming from the RPE ensheath photoreceptor outer segments (POS), and are possibly involved in the recycling of POS through phagocytosis. The molecules that regulate POS ensheathment and its relationship to phagocytosis remain to be deciphered. By means of ultrastructural analysis, we revealed that Mer receptor tyrosine kinase (MERTK) ligands, GAS6 and PROS1, rather than aVb5 integrin receptor ligands, triggered POS ensheathment by human embryonic stem cell (hESC)-derived RPE. Furthermore, we found that ensheathment is required for POS fragmentation before internalization. Consistently, POS ensheathment, fragmentation, and internalization were abolished in MERTK mutant RPE, and rescue of MERTK expression in retinitis pigmentosa (RP38) patient RPE counteracted these defects. Our results suggest that loss of ensheathment due to MERTK dysfunction might contribute to vision impairment in RP38 patients.

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Inhibition of Ca ²⁺ channel surface expression by mutant bestrophin‐1 in RPE cells

et al. 2020

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The BEST1 gene product bestrophin‐1, a Ca2+‐dependent anion channel, interacts with CaV1.3 Ca2+ channels in the retinal pigment epithelium (RPE). BEST1 mutations lead to Best vitelliform macular dystrophy. A common functional defect of these mutations is reduced trafficking of bestrophin‐1 into the plasma membrane. We hypothesized that this defect affects the interaction partner CaV1.3 channel affecting Ca2+ signaling and altered RPE function. Thus, we investigated the protein interaction between CaV1.3 channels and bestrophin‐1 by immunoprecipitation, CaV1.3 activity in the presence of mutant bestrophin‐1 and intracellular trafficking of the interaction partners in confluent RPE monolayers. We selected four BEST1 mutations, each representing one mutational hotspot of the disease: T6P, F80L, R218C, and F305S. Heterologously expressed L‐type channels and mutant bestrophin‐1 showed reduced interaction, reduced CaV1.3 channel activity, and changes in surface expression. Transfection of polarized RPE (porcine primary cells, iPSC‐RPE) that endogenously express CaV1.3 and wild‐type bestrophin‐1, with mutant bestrophin‐1 confirmed reduction of CaV1.3 surface expression. For the four selected BEST1 mutations, presence of mutant bestrophin‐1 led to reduced CaV1.3 activity by modulating pore‐function or decreasing surface expression. Reduced CaV1.3 activity might open new ways to understand symptoms of Best vitelliform macular dystrophy such as reduced electro‐oculogram, lipofuscin accumulation, and vision impairment.

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Seba Almedawar

A SUMO-Dependent Step during Establishment of Sister Chromatid Cohesion

ATPase-Dependent Control of the Mms21 SUMO Ligase during DNA Repair

MERTK-Dependent Ensheathment of Photoreceptor Outer Segments by Human Pluripotent Stem Cell-Derived Retinal Pigment Epithelium

Inhibition of Ca ²⁺ channel surface expression by mutant bestrophin‐1 in RPE cells

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Seba Almedawar

A SUMO-Dependent Step during Establishment of Sister Chromatid Cohesion

ATPase-Dependent Control of the Mms21 SUMO Ligase during DNA Repair

MERTK-Dependent Ensheathment of Photoreceptor Outer Segments by Human Pluripotent Stem Cell-Derived Retinal Pigment Epithelium

Inhibition of Ca 2+ channel surface expression by mutant bestrophin‐1 in RPE cells

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Inhibition of Ca ²⁺ channel surface expression by mutant bestrophin‐1 in RPE cells