Srimoyee Ghosh scite author profile

The planar cell polarity (PCP) signaling pathway governs collective cell movements duringvertebrate embryogenesis, and certain PCP proteins are also implicated in the assembly ofcilia. The septins are cytoskeletal proteins controlling behaviors such as cell division and migration. Here, we identified control of septin localization by the PCP protein Fritz as a crucial control point for both collective cell movement and ciliogenesis in Xenopus embryos. We also linked mutations in human Fritz to Bardet-Biedl and Meckel-Gruber syndromes, a notable link given that other genes mutated in these syndromes also influence collective cell movement and ciliogenesis. These findings shed light on the mechanisms by which fundamental cellular machinery, such as the cytoskeleton, is regulated during embryonic development and human disease.

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BET bromodomain inhibition suppresses TH17-mediated pathology

Mele

et al. 2013

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Structure of a Domain-Swapped FOXP3 Dimer on DNA and Its Function in Regulatory T Cells

et al. 2011

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The transcription factor FOXP3 is essential for the suppressive function of regulatory T cells that are required for maintaining self-tolerance. We have solved the crystal structure of the FOXP3 forkhead domain, as a ternary complex with the DNA-binding domain of nuclear factor of activated T cells-1 (NFAT1) and a DNA oligonucleotide from the interleukin-2 promoter. A striking feature of this structure is that FOXP3 forms a domain-swapped dimer that bridges two molecules of DNA. Structure-guided or autoimmune disease (IPEX)-associated mutations in the domain-swap interface diminished dimer formation by the FOXP3 forkhead domain without compromising FOXP3 DNA binding. These mutations also eliminated T cell suppressive activity conferred by FOXP3, both in vitro and in a murine model of autoimmune diabetes in vivo. We conclude that FOXP3-mediated suppressor function requires dimerization through the forkhead domain, and that mutations in the dimer interface can lead to the systemic autoimmunity observed in IPEX patients.

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Tissue specific differentially methylated regions (TDMR): Changes in DNA methylation during development

et al. 2009

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Tissue specific differentially methylated regions (TDMRs) were identified and localized in the mouse genome using second generation virtual RLGS (vRLGS). Sequenom MassARRAY quantitative methylation analysis was used to confirm and determine the fine structure of tissue specific differences in DNA methylation. TDMRs have a broad distribution of locations to intragenic and intergenic regions including both CpG islands, and non-CpG islands regions. Somewhat surprising, there is a strong bias for TDMR location in non-promoter intragenic regions. Although some TDMRs are within or close to repeat sequences, overall they are less frequently associated with repetitive elements than expected from a random distribution. Many TDMRs are methylated at early developmental stages, but unmethylated later, suggesting active or passive demethylation, or expansions of populations of cells with unmethylated TDMRs. This is notable during postnatal testis differentiation where many testis-specific TDMRs become progressively “demethylated”. These results suggest that methylation changes during development are dynamic, involve demethylation and methylation, and may occur at late stages of embryonic development or even postnatally.

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Srimoyee Ghosh

Planar Cell Polarity Acts Through Septins to Control Collective Cell Movement and Ciliogenesis

BET bromodomain inhibition suppresses TH17-mediated pathology

Structure of a Domain-Swapped FOXP3 Dimer on DNA and Its Function in Regulatory T Cells

Tissue specific differentially methylated regions (TDMR): Changes in DNA methylation during development

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