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6. PU.1 and BCL11B sequentially cooperate with RUNX1 to anchor mSWI/SNF to poise the T cell effector landscape.

Author

Gamble N, Bradu A, Caldwell JA, McKeever J, Bolonduro O, Ermis E, Kaiser C, Kim Y, Parks B, Klemm S, Greenleaf WJ, Crabtree GR, and Koh AS

Subjects
Animals, Mice, Mice, Inbred C57BL, Chromosomal Proteins, Non-Histone metabolism, T-Lymphocytes immunology, T-Lymphocytes metabolism, Mice, Knockout, Chromatin Assembly and Disassembly, Cell Differentiation immunology, Proto-Oncogene Proteins metabolism, Trans-Activators metabolism, Trans-Activators genetics, Core Binding Factor Alpha 2 Subunit metabolism, Core Binding Factor Alpha 2 Subunit genetics, Repressor Proteins metabolism, Repressor Proteins genetics, Transcription Factors metabolism, Transcription Factors genetics, Tumor Suppressor Proteins metabolism, Tumor Suppressor Proteins genetics
Abstract

Adaptive immunity relies on specialized effector functions elicited by lymphocytes, yet how antigen recognition activates appropriate effector responses through nonspecific signaling intermediates is unclear. Here we examined the role of chromatin priming in specifying the functional outputs of effector T cells and found that most of the cis-regulatory landscape active in effector T cells was poised early in development before the expression of the T cell antigen receptor. We identified two principal mechanisms underpinning this poised landscape: the recruitment of the nucleosome remodeler mammalian SWItch/Sucrose Non-Fermentable (mSWI/SNF) by the transcription factors RUNX1 and PU.1 to establish chromatin accessibility at T effector loci; and a 'relay' whereby the transcription factor BCL11B succeeded PU.1 to maintain occupancy of the chromatin remodeling complex mSWI/SNF together with RUNX1, after PU.1 silencing during lineage commitment. These mechanisms define modes by which T cells acquire the potential to elicit specialized effector functions early in their ontogeny and underscore the importance of integrating extrinsic cues to the developmentally specified intrinsic program., (© 2024. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published
2024
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7. SMARCE1 deficiency generates a targetable mSWI/SNF dependency in clear cell meningioma.

Author

St Pierre R, Collings CK, Samé Guerra DD, Widmer CJ, Bolonduro O, Mashtalir N, Sankar A, Liang Y, Bi WL, Gerkes EH, Ramesh V, Qi J, Smith MJ, Meredith DM, and Kadoch C

Subjects
Animals, Chromatin, Chromatin Assembly and Disassembly genetics, Mammals genetics, Transcription Factors metabolism, Meningeal Neoplasms genetics, Meningioma genetics
Abstract

Mammalian SWI/SNF (mSWI/SNF) ATP-dependent chromatin remodeling complexes establish and maintain chromatin accessibility and gene expression, and are frequently perturbed in cancer. Clear cell meningioma (CCM), an aggressive tumor of the central nervous system, is uniformly driven by loss of SMARCE1, an integral subunit of the mSWI/SNF core. Here, we identify a structural role for SMARCE1 in selectively stabilizing the canonical BAF (cBAF) complex core-ATPase module interaction. In CCM, cBAF complexes fail to stabilize on chromatin, reducing enhancer accessibility, and residual core module components increase the formation of BRD9-containing non-canonical BAF (ncBAF) complexes. Combined attenuation of cBAF function and increased ncBAF complex activity generates the CCM-specific gene expression signature, which is distinct from that of NF2-mutated meningiomas. Importantly, SMARCE1-deficient cells exhibit heightened sensitivity to small-molecule inhibition of ncBAF complexes. These data inform the function of a previously elusive SWI/SNF subunit and suggest potential therapeutic approaches for intractable SMARCE1-deficient CCM tumors., (© 2022. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published
2022
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8. Comprehensive characterization of tissue-specific chromatin accessibility in L2 Caenorhabditis elegans nematodes.

Author

Durham TJ, Daza RM, Gevirtzman L, Cusanovich DA, Bolonduro O, Noble WS, Shendure J, and Waterston RH

Subjects
Animals, Chromatin Immunoprecipitation Sequencing, DNA genetics, Gene Expression Regulation, Caenorhabditis elegans genetics, Chromatin genetics
Abstract

Recently developed single-cell technologies allow researchers to characterize cell states at ever greater resolution and scale. Caenorhabditis elegans is a particularly tractable system for studying development, and recent single-cell RNA-seq studies characterized the gene expression patterns for nearly every cell type in the embryo and at the second larval stage (L2). Gene expression patterns give insight about gene function and into the biochemical state of different cell types; recent advances in other single-cell genomics technologies can now also characterize the regulatory context of the genome that gives rise to these gene expression levels at a single-cell resolution. To explore the regulatory DNA of individual cell types in C. elegans , we collected single-cell chromatin accessibility data using the sci-ATAC-seq assay in L2 larvae to match the available single-cell RNA-seq data set. By using a novel implementation of the latent Dirichlet allocation algorithm, we identify 37 clusters of cells that correspond to different cell types in the worm, providing new maps of putative cell type-specific gene regulatory sites, with promise for better understanding of cellular differentiation and gene regulation., (© 2021 Durham et al.; Published by Cold Spring Harbor Laboratory Press.)

Published
2021
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9. Recurrent SMARCB1 Mutations Reveal a Nucleosome Acidic Patch Interaction Site That Potentiates mSWI/SNF Complex Chromatin Remodeling.

Author

Valencia AM, Collings CK, Dao HT, St Pierre R, Cheng YC, Huang J, Sun ZY, Seo HS, Mashtalir N, Comstock DE, Bolonduro O, Vangos NE, Yeoh ZC, Dornon MK, Hermawan C, Barrett L, Dhe-Paganon S, Woolf CJ, Muir TW, and Kadoch C

Subjects
Amino Acid Sequence, Enhancer Elements, Genetic genetics, Female, Genome, Human, HEK293 Cells, HeLa Cells, Heterozygote, Humans, Male, Models, Molecular, Mutant Proteins chemistry, Mutant Proteins metabolism, Protein Binding, Protein Domains, SMARCB1 Protein chemistry, SMARCB1 Protein metabolism, Chromatin Assembly and Disassembly genetics, Chromosomal Proteins, Non-Histone metabolism, Mutation genetics, Nucleosomes metabolism, SMARCB1 Protein genetics, Transcription Factors metabolism
Abstract

Mammalian switch/sucrose non-fermentable (mSWI/SNF) complexes are multi-component machines that remodel chromatin architecture. Dissection of the subunit- and domain-specific contributions to complex activities is needed to advance mechanistic understanding. Here, we examine the molecular, structural, and genome-wide regulatory consequences of recurrent, single-residue mutations in the putative coiled-coil C-terminal domain (CTD) of the SMARCB1 (BAF47) subunit, which cause the intellectual disability disorder Coffin-Siris syndrome (CSS), and are recurrently found in cancers. We find that the SMARCB1 CTD contains a basic α helix that binds directly to the nucleosome acidic patch and that all CSS-associated mutations disrupt this binding. Furthermore, these mutations abrogate mSWI/SNF-mediated nucleosome remodeling activity and enhancer DNA accessibility without changes in genome-wide complex localization. Finally, heterozygous CSS-associated SMARCB1 mutations result in dominant gene regulatory and morphologic changes during iPSC-neuronal differentiation. These studies unmask an evolutionarily conserved structural role for the SMARCB1 CTD that is perturbed in human disease., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2019
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10. Enhanced assembly and colloidal stabilization of primate erythroparvovirus 1 virus-like particles for improved surface engineering.

Author

Sánchez-Rodríguez SP, Morán-García Adel C, Bolonduro O, Dordick JS, and Bustos-Jaimes I

Subjects
Animals, Arginine pharmacology, Bridged Bicyclo Compounds metabolism, Centrifugation, Crystallography, X-Ray, Endocytosis, Filtration, Fluorescence, Glycerol pharmacology, Hep G2 Cells, Humans, Hydrogen-Ion Concentration, Models, Molecular, Primates, Sulfhydryl Compounds metabolism, Surface Properties, Viral Proteins chemistry, Viral Proteins metabolism, Virion drug effects, Virion ultrastructure, Colloids chemistry, Parvoviridae chemistry, Protein Engineering methods, Virion chemistry
Abstract

Virus-like particles (VLPs) are the product of the self-assembly, either in vivo or in vitro, of structural components of viral capsids. These particles are excellent scaffolds for surface display of biomolecules that can be used in vaccine development and tissue-specific drug delivery. Surface engineering of VLPs requires structural stability and chemical reactivity. Herein, we report the enhanced assembly, colloidal stabilization and fluorescent labeling of primate erythroparvovirus 1 (PE1V), generally referred to as parvovirus B19. In vitro assembly of the VP2 protein of PE1V produces VLPs, which are prone to flocculate and hence undergo limited chemical modification by thiol-specific reagents like the fluorogenic monobromobimane (mBBr). We determined that the addition of 0.2M l-arginine during the assembly process produced an increased yield of soluble VLPs with good dispersion stability. Fluorescent labeling of VLPs suspended in phosphate buffered saline (PBS) added with 0.2M l-Arg was achieved in significantly shorter times than the flocculated VLPs assembled in only PBS buffer. Finally, to demonstrate the potential application of this approach, mBBr-labeled VLPs were successfully used to tag human hepatoma HepG2 cells. This new method for assembly and labeling PE1V VLPs eases its applications and provides insights on the manipulation of this biomaterial for further developments., Statement of Significance: Application of virus-derived biomaterials sometimes requires surface modification for diverse purposes, including enhanced cell-specific interaction, the inclusion of luminescent probes for bioimaging, or the incorporation of catalytic properties for the production of enzyme nanocarriers. In this research, we reported for the first time the colloidal stabilization of the primate erythroparvovirus 1 (PE1V) virus-like particles (VLPs). Also, we report the chemical modification of the natural Cys residues located on the surface of these VLPs with a fluorescent probe, as well as its application for tagging hepatoma cells in vitro. Keeping in mind that PE1V is a human pathogen, virus-host interactions already exist in human cells, and they can be exploited for therapeutic and research aims. This study will impact on the speed in which the scientific community will be able to manipulate PE1V VLPs for diverse purposes. Additionally, this study may provide insights on the colloidal properties of these VLPs as well as in the effect of different protein additives used for protein stabilization., (Copyright © 2016 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published
2016
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11. Uterine didelphys, obstructed hemivagina, and ipsilateral renal agenesis: presentation and management.

Author

Bolonduro O, Raju R, Abuzeid O, Ashraf M, and Abuzeid MI

Subjects
Adolescent, Congenital Abnormalities pathology, Congenital Abnormalities surgery, Female, Humans, Kidney pathology, Kidney Diseases complications, Kidney Diseases diagnosis, Kidney Diseases pathology, Kidney Diseases surgery, Laparoscopy, Magnetic Resonance Imaging, Treatment Outcome, Urogenital Abnormalities pathology, Urogenital Abnormalities surgery, Uterus pathology, Uterus surgery, Vagina abnormalities, Congenital Abnormalities diagnosis, Dysmenorrhea etiology, Kidney abnormalities, Kidney surgery, Kidney Diseases congenital, Urogenital Abnormalities complications, Urogenital Abnormalities diagnosis, Uterus abnormalities, Vagina surgery
Published
2015
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12. Cumulative live birth rate and assisted reproduction: impact of female age and transfer day.

Author

Abuzeid MI, Bolonduro O, La Chance J, Abozaid T, Urich M, Ullah K, Ali T, Ashraf M, and Khan I

Abstract

Background: Many studies on assisted reproductive technology examine live birth rate per cycle. However, after a cycle fails, couples often want to know what their chances are of having a live birth if they continue treatment. From a patients' perspective, the cumulative probability of live birth is more informative., Materials and Methods: This study includes patients who underwent fresh, frozen and non-donor ICSI cycles at our IVF unit between 2006-2012. Patients were divided into two groups; Group 1 represented those who underwent only Day 5 transfers, Group 2 represented only Day 3 transfers. Patients who underwent both were excluded. -Cycles were analyzed until the first live birth or the end of the 3rd cycle. Using Kaplan-Meier analysis, we estimated the cumulative live birth rates for each group and according to female age., Results: The mean age for Group 1 was significantly lower than for Group 2. After 3 cycles, Group 1's CLBR was 79% versus 66% in Group 2. When analyzing the live births by age and group, there was a significant difference in the CLBR after 3 cycles with the women less than 35 years having the highest CLBR and the women 40 years or older having the lowest CLBR., Conclusion: In women less than 35 years, excellent CLBR can be achieved irrespective of the transfer day. For women 40 years and above, better results of CLBR are observed with Day 5 transfers. Our findings may impact the counseling of couples considering IVF treatment.

Published
2014

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