Montserrat C. Anguera
University of Pennsylvania
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Featured researches published by Montserrat C. Anguera.
PLOS Genetics | 2011
Montserrat C. Anguera; Weiyuan Ma; Danielle Clift; Satoshi H. Namekawa; Raymond J. Kelleher; Jeannie T. Lee
The Tsx gene resides at the X-inactivation center and is thought to encode a protein expressed in testis, but its function has remained mysterious. Given its proximity to noncoding genes that regulate X-inactivation, here we characterize Tsx and determine its function in mice. We find that Tsx is actually noncoding and the long transcript is expressed robustly in meiotic germ cells, embryonic stem cells, and brain. Targeted deletion of Tsx generates viable offspring and X-inactivation is only mildly affected in embryonic stem cells. However, mutant embryonic stem cells are severely growth-retarded, differentiate poorly, and show elevated cell death. Furthermore, male mice have smaller testes resulting from pachytene-specific apoptosis and a maternal-specific effect results in slightly smaller litters. Intriguingly, male mice lacking Tsx are less fearful and have measurably enhanced hippocampal short-term memory. Combined, our study indicates that Tsx performs general functions in multiple cell types and links the noncoding locus to stem and germ cell development, learning, and behavior in mammals.
Journal of Biological Chemistry | 2006
Montserrat C. Anguera; Martha S. Field; Cheryll A. Perry; Haifa Ghandour; En-Pei Chiang; Jacob Selhub; Barry Shane; Patrick J. Stover
10-Formyltetrahydrofolate dehydrogenase (FDH) catalyzes the NADP+-dependent conversion of 10-formyltetrahydrofolate to CO2 and tetrahydrofolate (THF) and is an abundant high affinity folate-binding protein. Although several activities have been ascribed to FDH, its metabolic role in folate-mediated one-carbon metabolism is not well understood. FDH has been proposed to: 1) inhibit purine biosynthesis by depleting 10-formyl-THF pools, 2) maintain cellular folate concentrations by sequestering THF, 3) deplete the supply of folate-activated one-carbon units, and 4) stimulate the generation of THF-activated one-carbon unit synthesis by channeling folate cofactors to other folate-dependent enzymes. The metabolic functions of FDH were investigated in neuroblastoma, which do not contain detectable levels of FDH. Both low and high FDH expression reduced total cellular folate concentrations by 60%, elevated rates of folate catabolism, and depleted cellular 5-methyl-THF and S-adenosylmethionine levels. Low FDH expression increased the formyl-THF/THF ratio nearly 10-fold, whereas THF accounted for nearly 50% of total folate in neuroblastoma with high FDH expression. FDH expression did not affect the enrichment of exogenous formate into methionine, serine, or purines and did not suppress de novo purine nucleotide biosynthesis. We conclude that low FDH expression facilitates the incorporation of one-carbon units into the one-carbon pool, whereas high levels of FDH expression deplete the folate-activated one-carbon pool by catalyzing the conversion of 10-formyl-THF to THF. Furthermore, FDH does not increase cellular folate concentrations by sequestering THF in neuroblastoma nor does it inhibit or regulate de novo purine biosynthesis. FDH expression does deplete cellular 5-methyl-THF and S-adenosylmethionine levels indicating that FDH impairs the folate-dependent homocysteine remethylation cycle.
Annual Review of Genomics and Human Genetics | 2013
Derek Lessing; Montserrat C. Anguera; Jeannie T. Lee
Reprogramming somatic cells to derive induced pluripotent stem cells (iPSCs) has provided a new method to model disease and holds great promise for regenerative medicine. Although genetically identical to their donor somatic cells, iPSCs undergo substantial changes in the epigenetic landscape during reprogramming. One such epigenetic process, X chromosome inactivation (XCI), has recently been shown to vary widely in human female iPSCs and embryonic stem cells (ESCs). XCI is a form of dosage compensation whose chief regulator is the noncoding RNA Xist. In mouse iPSCs and ESCs, Xist expression and XCI strictly correlate with the pluripotent state, but no such correlation exists in humans. Lack of XIST expression in human cells is linked to reduced developmental potential and an altered transcriptional profile, including upregulation of genes associated with cancer, which has therefore led to concerns about the safety of pluripotent stem cells for use in regenerative medicine. In this review, we describe how different states of XIST expression define three classes of female human pluripotent stem cells and explore progress in discovering the reasons for these variations and how they might be countered.
Proceedings of the National Academy of Sciences of the United States of America | 2016
Jianle Wang; Camille M. Syrett; Marianne C. Kramer; Arindam Basu; Michael L. Atchison; Montserrat C. Anguera
Significance Females have increased immune responsiveness than males, and they are more likely to develop autoimmune disorders. The mechanism underlying these observations is unclear, and hypotheses suggest an important role for the X chromosome. Here, we discover that the inactive X is predisposed to become partially reactivated in mammalian female lymphocytes, resulting in the overexpression of immunity-related genes. We also demonstrate that lymphocytes from systemic lupus erythematosus patients have different epigenetic characteristics on the inactive X that compromises transcriptional silencing. These findings are the first to our knowledge to link the unusual maintenance of X chromosome Inactivation (the female-specific mechanism for dosage compensation) in lymphocytes to the female bias observed with enhanced immunity and autoimmunity susceptibility. Females have a greater immunological advantage than men, yet they are more prone to autoimmune disorders. The basis for this sex bias lies in the X chromosome, which contains many immunity-related genes. Female mammals use X chromosome inactivation (XCI) to generate a transcriptionally silent inactive X chromosome (Xi) enriched with heterochromatic modifications and XIST/Xist RNA, which equalizes gene expression between the sexes. Here, we examine the maintenance of XCI in lymphocytes from females in mice and humans. Strikingly, we find that mature naïve T and B cells have dispersed patterns of XIST/Xist RNA, and they lack the typical heterochromatic modifications of the Xi. In vitro activation of lymphocytes triggers the return of XIST/Xist RNA transcripts and some chromatin marks (H3K27me3, ubiquitin-H2A) to the Xi. Single-cell RNA FISH analysis of female T cells revealed that the X-linked immunity genes CD40LG and CXCR3 are biallelically expressed in some cells. Using knockout and knockdown approaches, we find that Xist RNA-binding proteins, YY1 and hnRNPU, are critical for recruitment of XIST/Xist RNA back to the Xi. Furthermore, we examined B cells from patients with systemic lupus erythematosus, an autoimmune disorder with a strong female bias, and observed different XIST RNA localization patterns, evidence of biallelic expression of immunity-related genes, and increased transcription of these genes. We propose that the Xi in female lymphocytes is predisposed to become partially reactivated and to overexpress immunity-related genes, providing the first mechanistic evidence to our knowledge for the enhanced immunity of females and their increased susceptibility for autoimmunity.
PLOS Genetics | 2015
Mengcheng Luo; Jian Zhou; N. Adrian Leu; Carla M. Abreu; Jianle Wang; Montserrat C. Anguera; Dirk G. de Rooij; Maria Jasin; P. Jeremy Wang
Polycomb group proteins mediate transcriptional silencing in diverse developmental processes. Sex chromosomes undergo chromosome-wide transcription silencing during male meiosis. Here we report that mouse SCML2 (Sex comb on midleg-like 2), an X chromosome-encoded polycomb protein, is specifically expressed in germ cells, including spermatogonia, spermatocytes, and round spermatids. SCML2 associates with phosphorylated H2AX and localizes to the XY body in spermatocytes. Loss of SCML2 in mice causes defective spermatogenesis, resulting in sharply reduced sperm production. SCML2 interacts with and recruits a deubiquitinase, USP7, to the XY body in spermatocytes. In the absence of SCML2, USP7 fails to accumulate on the XY body, whereas H2A monoubiquitination is dramatically augmented in the XY chromatin. Our results demonstrate that the SCML2/USP7 complex constitutes a novel molecular pathway in modulating the epigenetic state of sex chromosomes during male meiosis.
Archives of Biochemistry and Biophysics | 2009
Martha S. Field; Montserrat C. Anguera; Rodney L. Page; Patrick J. Stover
Methenyltetrahydrofolate synthetase (MTHFS) expression enhances folate-dependent de novo purine biosynthesis. In this study, the effect of increased MTHFS expression on the efficacy of the glycinamide ribonucleotide formyltransferase (GARFT) inhibitor LY309887 was investigated in SH-SY5Y neuroblastoma. GARFT catalyzes the incorporation of formate, in the form of 10-formyltetrahydrofolate, into the C8 position of the purine ring during de novo purine biosynthesis. SH-SY5Y neuroblastoma with increased MTHFS expression displayed a 4-fold resistance to the GARFT inhibitor LY309887, but did not exhibit resistance to the thymidylate synthase inhibitor Pemetrexed. This finding supports a mechanism whereby MTHFS increases the availability of 10-formyltetrahydrofolate for GARFT. MTHFS expression is elevated in animal tumor tissues compared to surrounding normal tissue, consistent with the dependence of transformed cells on de novo purine biosynthesis. The level of MTHFS expression in tumors may predict the efficacy of antipurine agents that target GARFT.
Molecular and Cellular Biology | 2016
Ian Penkala; Jianle Wang; Camille M. Syrett; Laura Goetzl; Carolina B. López; Montserrat C. Anguera
ABSTRACT Long noncoding RNAs (lncRNAs) can regulate gene expression in a cell-specific fashion during development. Here, we identify a novel lncRNA from the X chromosome that we named lncRHOXF1 and which is abundantly expressed in trophectoderm and primitive endoderm cells of human blastocyst-stage embryos. lncRHOXF1 is a spliced and polyadenylated lncRNA about 1 kb in length that is found in both the nuclear and cytoplasmic compartments of in vitro differentiated human trophectoderm progenitor cells. Gain-of-function experiments in human embryonic stem cells, which normally lack lncRHOXF1 RNA, revealed that lncRHOXF1 reduced proliferation and favored cellular differentiation. lncRHOXF1 knockdown using small interfering RNAs (siRNAs) in human trophectoderm progenitors increased expression of viral response genes, including type I interferon. Sendai virus infection of human trophectoderm progenitor cells increased lncRHOXF1 RNA levels, and siRNA-mediated disruption of lncRHOXF1 during infection reduced the expression of viral response genes leading to higher virus replication. Thus, lncRHOXF1 RNA is the first example of a lncRNA that regulates the host response to viral infections in human placental progenitor cells, and we propose that it functions as a repressor of the viral response during early human development.
PLOS Genetics | 2017
Camille M. Syrett; Vishal J. Sindhava; Suchita Hodawadekar; Arpita Myles; Guanxiang Liang; Yue Zhang; Satabdi Nandi; Michael P. Cancro; Michael L. Atchison; Montserrat C. Anguera
X-chromosome inactivation (XCI) in female lymphocytes is uniquely regulated, as the inactive X (Xi) chromosome lacks localized Xist RNA and heterochromatin modifications. Epigenetic profiling reveals that Xist RNA is lost from the Xi at the pro-B cell stage and that additional heterochromatic modifications are gradually lost during B cell development. Activation of mature B cells restores Xist RNA and heterochromatin to the Xi in a dynamic two-step process that differs in timing and pattern, depending on the method of B cell stimulation. Finally, we find that DNA binding domain of YY1 is necessary for XCI in activated B cells, as ex-vivo YY1 deletion results in loss of Xi heterochromatin marks and up-regulation of X-linked genes. Ectopic expression of the YY1 zinc finger domain is sufficient to restore Xist RNA localization during B cell activation. Together, our results indicate that Xist RNA localization is critical for maintaining XCI in female lymphocytes, and that chromatin changes on the Xi during B cell development and the dynamic nature of YY1-dependent XCI maintenance in mature B cells predisposes X-linked immunity genes to reactivation.
Developmental Dynamics | 2008
Montserrat C. Anguera; Matthew Liu; Joseph Avruch; Jeannie T. Lee
Mammalian sterile 20‐like kinase 1 (Mst1) is a ubiquitously expressed serine/threonine kinase belonging to the family of Sterile 20‐like kinases. MST1 has been inferred to play important roles in apoptosis and in the inhibition of proliferation in mammalian cells. Here, we describe the genetic characterization of Mst1‐deficient mice produced by two distinct gene‐trap insertions. Animals generated from clone RRT293 exhibit transmission ratio distortion favoring the mutated allele which is amplified with each generation. Inexplicably, while the mutated allele is favored for transmission, its homozygosity is embryonic lethal. By contrast, animals generated from the second Mst1 gene‐trap clone, AJ0315, do not show any gross abnormalities. We find that the discrepancy in phenotype is most likely attributable to a second insertion in the RRT293 clone. Thus, a mutation in Mst1 alone does not affect survival. Our results set the stage for identification of the lethal second‐site mutation that is paradoxically favored for transmission. Developmental Dynamics 237:3424–3434, 2008.
The Journal of Allergy and Clinical Immunology | 2018
Carole Le Coz; Melissa Trofa; Camille M. Syrett; Anna Martin; Harumi Jyonouchi; Soma Jyonouchi; Montserrat C. Anguera; Neil Romberg
An inherited syndrome of autoimmunity associated with CD40LG duplication is silenced by non-random X-chromosome inactivation and is treatable with CD40L directed therapy.