Cohesin-protein Shugoshin-1 controls cardiac automaticity via HCN4 pacemaker channel

Liu, Donghai; Song, Andrew T.; Qi, Xiaoyan; Vliet, Patrick van; Xiao, Jiening; Xiong, Feng; Andelfinger, Grégor; Nattel, Stanley

doi:10.1038/s41467-021-22737-5

Cited by 8 publications

(7 citation statements)

References 52 publications

(28 reference statements)

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“…The observed cardiac phenotype in sgo1 −/− larvae correlates well with the expression of sgo1 in the entire myocardium of the zebrafish heart with most abundant expression in the sinoatrial node, where the pacemaker cells reside 2 . Corroborating a role for Sgo1 in pacemaker cells is the recent observation that Sgo1 interacts with the potassium/sodium hyperpolarization‐activated cyclic nucleotide‐gated channel 4 (Hcn4) and is required for proper localization of the Hcn4 channel to the plasma membrane 13 . The Hcn4 channel is required for the so‐called funny current in pacemaker cells and mutations in HCN4 have been identified in patients with sick sinus syndrome and bradycardia 14‐17 .…”

Section: Resultsmentioning

confidence: 56%

“…2 Corroborating a role for Sgo1 in pacemaker cells is the recent observation that Sgo1 interacts with the potassium/sodium hyperpolarizationactivated cyclic nucleotide-gated channel 4 (Hcn4) and is required for proper localization of the Hcn4 channel to the plasma membrane. 13 The Hcn4 channel is required for the so-called funny current in pacemaker cells and mutations in HCN4 have been identified in patients with sick sinus syndrome and bradycardia. [14][15][16][17] Whether the observed reduction in contractility in sgo1 À/À larvae is also due to impaired Hcn4 activity is not clear and needs to be investigated further.…”

Section: Impaired Heart Rate and Cardiac Output In The Sgo1 Mutantsmentioning

confidence: 99%

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The zebrafish cohesin protein Sgo1 is required for cardiac function and eye development

Kamel

Broekman

Tessadori

et al. 2022

Developmental Dynamics

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Background: Cohesinopathies is a term that refers to/covers rare genetic diseases caused by mutations in the cohesin complex proteins. The cohesin complex is a multiprotein complex that facilitates different aspects of cell division, gene transcription, DNA damage repair, and chromosome architecture. Shugoshin proteins prevent the cohesin complex from premature dissociation from chromatids during cell division. Patients with a homozygous missense mutation in SGO1, which encodes for Shugoshin1, have problems with normal pacing of the heart and gut.Results: To study the role of shugoshin during embryo development, we mutated the zebrafish sgo1 gene. Homozygous sgo1 mutant embryos display various phenotypes related to different organs, including a reduced heart rate accompanied by reduced cardiac function. In addition, sgo1 mutants are vision-impaired as a consequence of structurally defective and partially nonfunctional photoreceptor cells. Furthermore, the sgo1 mutants display reduced food intake and early lethality. Conclusion:We have generated a zebrafish model of Sgo1 that showed its importance during organ development and function.

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Section: Resultsmentioning

confidence: 56%

Section: Impaired Heart Rate and Cardiac Output In The Sgo1 Mutantsmentioning

confidence: 99%

The zebrafish cohesin protein Sgo1 is required for cardiac function and eye development

Kamel

Broekman

Tessadori

et al. 2022

Developmental Dynamics

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“…Human induced pluripotent stem cells (hiPSC) were generated at CR-CHUSJ Stem Cell core or in-house. The hiPSC lines SJi3252C2 and SJ3013C2 were derived from human fibroblasts using Cytotune 1.0 ™ (Invitrogen) and were previously characterized 58 . EU03.C2, and EU148.C5 were derived from human PBMC with Cytotune™ 2.0 (A16517, Invitrogen).…”

Section: Star Methodsmentioning

confidence: 99%

“…Human induced pluripotent stem cells (hiPSC) were generated at CR-CHUSJ Stem Cell core or in-house. The hiPSC lines SJi3252C2 and SJ3013C2 were derived from human fibroblasts using Cytotune 1.0 TM (Invitrogen) and were previously characterized 58 . Briefly, 85% confluent hiPSCs in a 6 well plate were passaged with EDTA and seeded 1/14-1/16 of a cell suspension per single well of 24 well plate.…”

Section: Star Methodsmentioning

confidence: 99%

Developmental role of macrophages modelled in human pluripotent stem cell derived intestinal tissue

Andelfinger

Song

Sindeaux

et al. 2022

Preprint

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Macrophages populate the embryo early in gestation but their role in the developmental process remains largely unknown. In particular, specification and function of macrophages in intestinal development remain unexplored. To study this event in human developmental context, we derived and combined human intestinal organoid and macrophages from pluripotent stem cells. Macrophages migrated into the organoid, proliferated, and occupied the emerging micro-anatomical niches of epithelial crypts and ganglia. They also acquired a similar transcriptomic profile to fetal intestinal macrophages and displayed tissue macrophage behaviors, such as recruitment to tissue injury. Using this model, we show that macrophages reduce glycolysis in mesenchymal cells and limit tissue growth without affecting tissue architecture, in contrast to the pro-growth effect of enteric neurons. In short, we engineered an intestinal tissue model populated with macrophages, and we suggest that resident macrophages contribute to regulation of metabolism and growth of the developing intestine.

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“…In humans, a shorter splice variant of human Sgo1 , sSgo1 , localizes to the centrosome and is proposed to protect centriolar cohesion during mitosis 7 . Extranuclear functions of vertebrate SGO proteins are further supported by the recent discovery of its role in regulating pacemaker activity in the cell membranes of myocytes and its involvement in Chronic Atrial and Intestinal Dysrhythmia Syndrome (CAID) 8 . Consistent with post-mitotic functions for this protein family, mouse SGO1 is expressed in distinct terminally differentiated cells in neonatal mice, including neurons 9 , 10 .…”

Section: Introductionmentioning

confidence: 99%

The Caenorhabditis elegans Shugoshin regulates TAC-1 in cilia

Reed

Park

Waddell

et al. 2023

Sci Rep

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The conserved Shugoshin (SGO) protein family is essential for mediating proper chromosome segregation from yeast to humans but has also been implicated in diverse roles outside of the nucleus. SGO’s roles include inhibiting incorrect spindle attachment in the kinetochore, regulating the spindle assembly checkpoint (SAC), and ensuring centriole cohesion in the centrosome, all functions that involve different microtubule scaffolding structures in the cell. In Caenorhabditis elegans, a species with holocentric chromosomes, SGO-1 is not required for cohesin protection or spindle attachment but appears important for licensing meiotic recombination. Here we provide the first functional evidence that in C. elegans, Shugoshin functions in another extranuclear, microtubule-based structure, the primary cilium. We identify the centrosomal and microtubule-regulating transforming acidic coiled-coil protein, TACC/TAC-1, which also localizes to the basal body, as an SGO-1 binding protein. Genetic analyses indicate that TAC-1 activity must be maintained below a threshold at the ciliary base for correct cilia function, and that SGO-1 likely participates in constraining TAC-1 to the basal body by influencing the function of the transition zone ‘ciliary gate’. This research expands our understanding of cellular functions of Shugoshin proteins and contributes to the growing examples of overlap between kinetochore, centrosome and cilia proteomes.

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Cohesin-protein Shugoshin-1 controls cardiac automaticity via HCN4 pacemaker channel

Cited by 8 publications

References 52 publications

The zebrafish cohesin protein Sgo1 is required for cardiac function and eye development

The zebrafish cohesin protein Sgo1 is required for cardiac function and eye development

Developmental role of macrophages modelled in human pluripotent stem cell derived intestinal tissue

The Caenorhabditis elegans Shugoshin regulates TAC-1 in cilia

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