Your search keyword '"SIM2"' showing total 14 results

1. Metacommunity dynamics and the detection of species associations in co‐occurrence analyses: Why patch disturbance matters.

Author

Calcagno, Vincent, Cunniffe, Nik J., and Hamelin, Frédéric M.

Abstract

Many statistical methods attempt to detect species associations—and so infer interspecific interactions—from species co‐occurrence patterns. Habitat heterogeneity and out‐of‐equilibrium colonization histories are well recognized as potentially causing species associations, even when interactions are absent. The potential for patch disturbance, a classical component of metacommunity dynamics, to also drive spurious species associations has however been overlooked.Using a new general metacommunity model, we derive mathematical predictions regarding how patch disturbance would affect the patterns of species associations detected in 'null' co‐occurrence matrices. We also conduct numerical simulations to test our predictions and to compare the performance of several widespread statistical methods, including direct tests of pairwise independence, matrix permutation approaches and joint species distribution modelling.We show how classical metacommunity dynamics can produce statistical associations, both positive and negative, even when species do not interact, when there is no habitat heterogeneity, and at equilibrium. This occurs as soon as there is some rate of patch disturbance (i.e. simultaneous extinction of several species in a patch) and/or a finite life span of patches, a common feature of a broad range of plant, animal or microbial systems.Patch disturbance can compromise species co‐occurrence analyses and cause the artefactual detection of species associations if not taken into account. Including patch age (i.e. the time since the last patch disturbance event) as a covariate in a joint species distribution model can resolve the artefact. However, this requires additional data that often are not available in practice. We argue that the consequences of patch disturbance should not be underestimated when analysing species distribution patterns in metacommunity‐like systems. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2022

2. Single-minded 2 is required for left-right asymmetric stomach morphogenesis.

Author

Wyatt, Brent H., Amin, Nirav M., Bagley, Kristen, Wcisel, Dustin J., Dush, Michael K., Yoder, Jeffrey A., and Nascone-Yoder, Nanette M.

Subjects

*MORPHOGENESIS, *STOMACH, *ALIMENTARY canal, *TRANSCRIPTOMES, *HUMAN abnormalities

Abstract

The morphogenesis of left-right (LR) asymmetry is a crucial phase of organogenesis. In the digestive tract, the development of anatomical asymmetry is first evident in the leftward curvature of the stomach. To elucidate the molecular events that shape this archetypal laterality, we performed transcriptome analyses of the left versus right sides of the developing stomach in frog embryos. Besides the known LR gene pitx2, the only gene found to be expressed asymmetrically throughout all stages of curvature was single-minded 2 (sim2), a Down Syndrome-related transcription factor and homolog of a Drosophila gene (sim) required for LR asymmetric looping of the fly gut.We demonstrate that sim2 functions downstream of LR patterning cues to regulate key cellular properties and behaviors in the left stomach epithelium that drive asymmetric curvature. Our results reveal unexpected convergent cooption of single-minded genes during the evolution of LR asymmetric morphogenesis, and have implications for dose-dependent roles of laterality factors in nonlaterality- related birth defects. [ABSTRACT FROM AUTHOR]

Published

2021

3. Long noncoding RNA TMEM75 promotes colorectal cancer progression by activation of SIM2.

Author

Jin, Xiaoyan, Liu, Guangming, Zhang, Xiuna, and Du, Na

Subjects

*NON-coding RNA, *GENETICS of colon cancer, *CANCER cell proliferation, *CANCER cell migration, *CANCER invasiveness

Abstract

Abstract Colorectal cancer (CRC) is one of the most frequent cancers worldwide and leads to a great many deaths each year. However, the underlying mechanisms that regulate colorectal cancer development and progression remain elusive. Here we identified an uncharacteristic long noncoding RNA TMEM75 that was upregulated in colorectal cancer compared to non-tumor tissues. We found that TMEM75 expression levels are positively correlated with advanced clinical stage. TMEM75 significantly inhibited the proliferation, migration, and invasion of CaCo2 and HCT116 cells in vitro. Moreover, TMEM75 silence delayed tumor growth in vivo. Mechanistically, TMEM75 was demonstrated to initiate the expression of transcription factor SIM2. We also found that the expression of SIM2 was upregulated and positively correlated that of TMEM75 in colorectal cancer tissues. Furthermore, ectopic expression of SIM2 rescued TMEM75 depletion-induced inhibition on cell proliferation, migration and invasion in colorectal cancer. Altogether, our findings indicated that TMEM75 functions as an oncogene relying on activation of SIM2 in colorectal cancer for the first time. Highlights • TMEM75 expression was upregulated and correlated with clinical severity in CRC. • TMEM75 contributed to CRC progression. • TMEM75 promoted SIM2 expression. • TMEM75 suppressed tumor growth in vivo by regulating SIM2 [ABSTRACT FROM AUTHOR]

Published

2018

4. MAGED1 is a novel regulator of a select subset of bHLH PAS transcription factors.

Author

Sullivan, Adrienne E., Peet, Daniel J., and Whitelaw, Murray L.

Subjects

*TRANSCRIPTION factors, *HELIX-loop-helix motifs, *PROTEIN expression, *DIMERIZATION, *HETERODIMERS

Abstract

Transcription factors of the basic helix-loop-helix ( bHLH) PER- ARNT- SIM ( PAS) family generally have critical and nonredundant biological roles, but some bHLH PAS proteins compete for common cofactors or recognise similar DNA elements. Identifying factors that regulate function of bHLH PAS proteins, particularly in cells where multiple family members are coexpressed, is important for understanding bHLH PAS factor biology. This study identifies and characterises a novel interaction between melanoma-associated antigen D1 ( MAGED1) and select members of the bHLH PAS transcription factor family. MAGED1 binds and positively regulates the transcriptional activity of family members SIM1, SIM2, NPAS4 and ARNT2, but does not interact with AhR, HIF1α and ARNT. This interaction is mediated by PAS repeat regions which also form the interface for bHLH PAS dimerisation, and accordingly MAGED1 is not found in complex with bHLH PAS dimers. We show that MAGED1 does not affect bHLH PAS protein levels and cannot be acting as a coactivator of transcriptionally active heterodimers, but rather appears to interact with nascent bHLH PAS proteins in the cytoplasm to enhance their function prior to nuclear import. As a selective regulator, MAGED1 may play an important role in the biology of these specific factors and in general bHLH PAS protein dynamics. [ABSTRACT FROM AUTHOR]

Published

2016

5. Potential contribution of SIM2 and ETS2 functional polymorphisms in Down syndrome associated malignancies.

Author

Chatterjee, Arpita, Dutta, Samikshan, Mukherjee, Sanjit, Mukherjee, Nupur, Dutta, Avirup, Mukherjee, Ashis, Sinha, Swagata, Panda, Chinmay Kumar, Chaudhuri, Keya, Roy, Ananda L., and Mukhopadhyay, Kanchan

Subjects

*GENETIC polymorphisms, *TRANSCRIPTION factors, *POPULATION genetics, *LYMPHOCYTIC leukemia, *HUMAN genetics

Abstract

Background: Proper expression and functioning of transcription factors (TFs) are essential for regulation of different traits and thus could be crucial for the development of complex diseases. Subjects with Down syndrome (DS) have a higher incidence of acute lymphoblastic leukemia (ALL) while solid tumors, like breast cancer (BC) and oral cancer (OC), show rare incidences. Triplication of the human chromosome 21 in DS is associated with altered genetic dosage of different TFs. V-ets erythroblastosis virus E26 oncogene homolog 2 (ETS2) and Single Minded 2 (SIM2) are two such TFs that regulate several downstream genes involved in developmental and neurological pathways. Here we studied functional genetic polymorphisms (fSNP) in ETS2 and SIM2 encoding genes in a group of patients and control subjects to better understand association of these variants with DS phenotypes. Methods: We employed an in silico approach to identify potential target pathways of ETS2 and SIM2. fSNPs in genes encoding for these two TFs were identified using available databases. Selected sites were genotyped in individuals with DS, their parents, ALL, BC, OC as well as ethnically matched control individuals. We further analyzed these data by population-based statistical methods. Results: Allelic/genotypic association analysis showed significant (P < 0.03) differences of rs2070530, rs1051476, rs11254, rs711 for DS subjects compared to control. rs711 also exhibited significantly different genotypic distribution pattern in parents of DS probands (P < 0.02) and BC patients (P < 0.02). Interaction analysis revealed independent main effect of rs711 in all the groups, while rs11254 exhibited independent main effect in DS subjects only. High entropy values were noticed for rs461155 in the solid tumor groups. Significant interactive effects of rs2070531 with rs1051475, rs1051476, rs11254 were observed in all the groups except DS. Conclusions: We infer from the present investigation that the difference in frequencies of fSNPs and their independent as well as interactive effects may be the cause for altered expression of SIM2 and ETS2 in DS and malignant groups, which affects different downstream biological pathways. Thus, altered expression of SIM2 and ETS2 could be one of the reasons for variable occurrence of different malignant conditions in DS. [ABSTRACT FROM AUTHOR]

Published

2013

6. Meta analysis of gene expression changes upon treatment of A549 cells with anti-cancer drugs to identify universal responses

Author

Agrawal, Megha and Gadgil, Mugdha

Subjects

*META-analysis, *GENE expression, *ANTINEOPLASTIC agents, *DRUG therapy, *GENETIC regulation, *EFFECT of drugs on cells

Abstract

Abstract: A meta-analysis of publicly available gene expression changes in A549 cells upon treatment with anti-cancer drugs is reported. To reduce false positives, both fold-change and significance level cutoffs were used. Simulated datasets and permutation analysis were used to guide choice of ratio cutoff. Of the genes identified, FDXR is the only gene differentially expressed in six of the seven drug treatments. Though FDXR has been reported to be differentially expressed upon treatment with 5-fluorouracil and its expression correlated to long term disease survival, to our knowledge this is a first study implicating a wide effect of anti-cancer drug treatment on FDXR expression. The other genes identified which are differentially expressed in four out of the seven drug treatments are CDKN1A and PARVB which are upregulated and MYC, HBP1, LDLR, SIM2, ALX1 and GPHN which are downregulated. [Copyright &y& Elsevier]

Published

2012

7. Sim2 prevents entry into the myogenic program by repressing MyoD transcription during limb embryonic myogenesis.

Author

Havis, Emmanuelle, Coumailleau, Pascal, Bonnet, Aline, Bismuth, Keren, Bonnin, Marie-Ange, Johnson, Randy, Fan, Chen-Min, Relaix, Frédéric, Shi, De-Li, and Duprez, Delphine

Subjects

*MYOGENESIS, *TRANSCRIPTION factors, *GENES, *EXTREMITIES (Anatomy), *LABORATORY mice, *EMBRYOLOGY, *MUSCLES

Abstract

The basic helix-loop-helix transcription factor MyoD is a central actor that triggers the skeletal myogenic program. Cellautonomous and non-cell-autonomous regulatory pathways must tightly control MyoD expression to ensure correct initiation of the muscle program at different places in the embryo and at different developmental times. In the present study, we have addressed the involvement of Sim2 (single-minded 2) in limb embryonic myogenesis. Sim2 is a bHLH-PAS transcription factor that inhibits transcription by active repression and displays enhanced expression in ventral limb muscle masses during chick and mouse embryonic myogenesis. We have demonstrated that Sim2 is expressed in muscle progenitors that have not entered the myogenic program, in different experimental conditions. MyoD expression is transiently upregulated in limb muscle masses of Sim2-/- mice. Conversely, Sim2 gain-of-function experiments in chick and Xenopus embryos showed that Sim2 represses MyoD expression. In addition, we show that Sim2 represses the activity of the mouse MyoD promoter in primary myoblasts and is recruited to the MyoD core enhancer in embryonic mouse limbs. Sim2 expression is non-autonomously and negatively regulated by the dorsalising factor Lmx1b. We propose that Sim2 represses MyoD transcription in limb muscle masses, through Sim2 recruitment to the MyoD core enhancer, in order to prevent premature entry into the myogenic program. This MyoD repression is predominant in ventral limb regions and is likely to contribute to the differential increase of the global mass of ventral muscles versus dorsal muscles. [ABSTRACT FROM AUTHOR]

Published

2012

8. Exploratory investigation on functional significance of ETS2 and SIM2 genes in Down syndrome.

Author

Chatterjee, Arpita, Dutta, Samikshan, Sinha, Swagata, and Mukhopadhyay, Kanchan

Subjects

*GENES, *DOWN syndrome, *TRISOMY, *GENE frequency, *GENETIC polymorphisms, *TRANSCRIPTION factors, *POLYMERASE chain reaction, *LEUCINE, *METHIONINE

Abstract

Trisomy of the 21{st} chromosome leads to an over dosage of several regulatory genes in Down syndrome (DS). Though allelic and genotypic combinations formed between genes are interesting, till date, this particular area has never been explored in DS. In the present investigation four SNPs in two transcription factors, Single minded 2 (SIM2) and V-ets erythroblastosis virus E26 oncogene homolog2 (ETS2), located in the 21{st} chromosome were genotyped to understand their role in DS. Genomic DNA of eastern Indian probands with DS (N=132), their parents (N=209) and ethnically matched controls (N=149) was subjected to PCR-based analyses of functionally important SNPs followed by statistical analyses. ETS2 rs461155 showed high heterozygosity in DS. Significantly lower frequency of SIM2 C-G haplotype (rs2073601-rs2073416) was noticed in individuals with DS (P value =0.01669) and their fathers (P value=0.01185). Significantly lower frequency of the A-C-C-G with higher frequency of A-C-A-G haplotypes was also noticed in subjects with DS (P value =0.02089 and 0.00588 respectively). Data obtained indicate that the rs2073601 'A' allele, responsible for nonsynonymous substitution of leucine to methionine, may have some role in DS in this population. [ABSTRACT FROM AUTHOR]

Published

2011

9. The HIF1α-inducible pro-cell death gene BNIP3 is a novel target of SIM2s repression through cross-talk on the hypoxia response element.

Author

Farrall, A. L. and Whitelaw, M. L.

Subjects

*CELL death, *HYPOXEMIA, *TRANSCRIPTION factors, *PANCREATIC cancer, *PROSTATE cancer, *RNA

Abstract

The short isoform of single-minded 2 (SIM2s), a basic helix–loop–helix/PAS (bHLH/PAS) transcription factor, is upregulated in pancreatic and prostate tumours; however, a mechanistic role for SIM2s in these cancers is unknown. Microarray studies in prostate DU145 cells identified the pro-cell death gene, BNIP3 (Bcl-2/adenovirus E1B 19 kDa interacting protein 3), as a novel putative target of SIM2s repression. Further validation showed BNIP3 repression in several prostate and pancreatic carcinoma-derived cell lines with ectopic expression of human SIM2s. BNIP3 levels are enhanced in prostate carcinoma cells upon short interfering (si)RNA-mediated knockdown of endogenous SIM2s. Chromatin immunoprecipitation and promoter studies show that SIM2s represses BNIP3 through its activities at the proximal promoter hypoxia response element (HRE), the site through which the bHLH/PAS family member, hypoxia-inducible factor 1α (HIF1α), induces BNIP3. SIM2s attenuates BNIP3 hypoxic induction via the HRE, and increased hypoxic induction of BNIP3 occurs with siRNA knockdown of endogenous SIM2s in prostate PC3AR+ cells. BNIP3 is implicated in hypoxia-induced cell death processes. Prolonged treatment of PC3AR+ cells with hypoxia mimetics, DP and DMOG, confers hypoxia-induced autophagy, measured by enhanced LC3-II levels and SQSTM1/p62 turnover. We show that PC3AR+ cells expressing ectopic SIM2s have enhanced survival in these conditions. Induction of LC3-II and turnover of SQSTM1/p62 are attenuated in PC3AR+/SIM2s DMOG and hypoxia-treated cells, suggesting that SIM2s may attenuate autophagic cell death processes, perhaps through BNIP3 repression. These data show, for the first time, SIM2s cross-talk on an endogenous HRE. SIM2s' functional interference with HIF1α activities on BNIP3 may indicate a novel role for SIM2s in promoting tumourigenesis. [ABSTRACT FROM AUTHOR]

Published

2009

10. Single-molecule and population probing of chromatin structure using DNA methyltransferases

Author

Kilgore, Jessica A., Hoose, Scott A., Gustafson, Tanya L., Porter, Weston, and Kladde, Michael P.

Subjects

*NUCLEIC acids, *CHROMATIN, *SACCHAROMYCES cerevisiae, *DNA

Abstract

Abstract: Probing chromatin structure with DNA methyltransferases offers advantages over more commonly used nuclease-based and chromatin immunoprecipitation methods for detection of nucleosomes and non-histone protein–DNA interactions. Here, we describe two related methods in which the readout of MTase accessibility is obtained by assaying 5-methylcytosine in DNA through the PCR-based technique of bisulfite genomic sequencing. The methyltransferase accessibility protocol (MAP) determines the relative frequency at which the enzyme accesses each of its target sites over an entire population of PCR amplified product. While MAP yields much quantitative information about relative accessibility of a region of chromatin, a complementary single-molecule view of methyltransferase accessibility, termed MAP for individual templates (MAP-IT), is provided by analysis of cloned PCR products. Absolute rather than relative methylation frequencies in a region are obtained by summing the methylation status at each site over a cohort of clones. Moreover, as the integrity of individual molecules is maintained in MAP-IT, unique information about the distribution of multiple footprints along continuous regions is gleaned. In principle, the population MAP and single-molecule MAP-IT strategies can be used to analyze chromatin structure in a variety of model systems. Here, we describe the application of MAP in living Saccharomyces cerevisiae cells and MAP-IT in the analysis of a mammalian tumor suppressor gene in nuclei. This application of MAP-IT provides the first means to simultaneously determine CpG methylation of mammalian genes and their overlying chromatin structure in the same single DNA molecule. [Copyright &y& Elsevier]

Published

2007

11. Effect of mouse Sim2 gene on the cell cycle of PC12 cells

Author

Meng, Xianfang, Shi, Jing, Peng, Bin, Zou, Xiaojing, and Zhang, Chun

Subjects

*CELL cycle, *GENES, *MESSENGER RNA, *CYTOMETRY

Abstract

Abstract: Sim2 gene plays an important role in the pathogenesis of Down syndrome (DS). To observe the effect of mouse Sim2 (mSim2) on the cell cycle of PC12 cells in vitro and explore the role of Sim2 in the pathogenesis of DS, we cloned the full open reading frame of mSim2 into the pcDNA3 vector and transfected it into PC12 cells, before analysing the effect of mSim2 on the cell cycle. A eukaryotic expression vector of mSim2 (pcDNA3-mSim2) was successfully constructed. There was notable expression of mSim2 mRNA in the cells transfected with pcDNA3-Sim2. Flow cytometry showed that there were more cells in G0/G1 phase in the Sim2-transfected cells than that in the controls (P <0.01), and significantly fewer in G2/M phase (P <0.01). The mRNA and protein expressions of cyclin E decreased in the Sim2-transfected cells, while p27 expression increased significantly (P <0.01). It is concluded that Sim2 may play an important role in the pathogenesis of DS by inhibiting the cell cycle, which is related to the decreased expression of cyclin E and increased expression of p27. [Copyright &y& Elsevier]

Published

2006

12. Transcription factor single-minded 2 (SIM2) is ubiquitinated by the RING–IBR–RING-type E3 ubiquitin ligases

Author

Okui, Michiyo, Yamaki, Akiko, Takayanagi, Atsushi, Kudoh, Jun, Shimizu, Nobuyoshi, and Shimizu, Yoshiko

Subjects

*TRANSCRIPTION factors, *GENETIC transcription, *GENOTYPE-environment interaction, *GENETIC translation

Abstract

Abstract: Human single-minded 2 (SIM2) is a member of the basic helix–loop–helix/Per–Arnt–Sim (bHLH/PAS) family of transcription factors and is associated with the etiology of Down syndrome phenotype. Here, we examined a possibility of the post-translational modification of SIM2 protein by transfecting various expression constructs followed by the analysis with immunoprecipitation and Western blotting. In fact, transient expression of SIM2 cDNA in HEK293 cells revealed poly-ubiquitination of SIM2 protein. In the stable transfectants, a proteasome inhibitor MG132 protected the poly-ubiquitinated SIM2 protein from degradation. Furthermore, in the cells co-transfected with SIM2 and each of four different E3 ubiquitin ligases, SIM2 was immunoprecipitated with the RING–IBR–RING-type E3 ubiquitin ligases, Parkin and HHARI, but it was not immunoprecipitated with other E3 ligases, such as one RING-type Siah-1 and the PHD type AIRE. A series of deletion constructs revealed that Parkin actually binds to SIM2 with the IBR (294–377)–RING2 (378–465) domains and that the sites for poly-ubiquitination of SIM2 reside within the PAS1–PAS2 region (aa 141–289). We postulated that transcription factor SIM2 and E3 ubiquitin ligase Parkin may interact each other to play an important physiological role in the brain development which is controlled by ubiquitination. [Copyright &y& Elsevier]

Published

2005

13. A novel nuclear localization signal in the human single-minded proteins SIM1 and SIM2

Author

Yamaki, Akiko, Kudoh, Jun, Shimizu, Nobuyoshi, and Shimizu, Yoshiko

Subjects

*CELL lines, *GENETIC transcription, *CENTRAL nervous system, *AMINO acids

Abstract

Human Single-minded 1 (SIM1) and SIM2 genes were found as homologs of Drosophila sim gene which plays a key role in the midline cell lineage of the central nervous system. SIM proteins belong to a family of transcription factors, called bHLH/PAS. Here we examined the intracellular localization of SIM proteins using the expression constructs of whole SIM2 or SIM1 protein fused with enhanced green fluorescent protein (EGFP). The transient expression analysis revealed the nuclear localization of SIM proteins in the cultured cells. To identify the nuclear localization signal, we made expression constructs of EGFP-fusion protein consisting of various portions of SIM proteins. Transfection assay showed the presence of NLS activity in the small region of 23 and 21 amino acid residues at the central part of SIM2 and SIM1 proteins, respectively. Further analysis with amino acid substitution of this small region of SIM2 protein revealed the critical role of five amino acid residues (Arg367, Lys373, Pro385, Tyr386, and Gln389) in NLS activity. The consensus sequence of RKxxKx[K/R]xxxxKxKxRxxPY was estimated as a presumptive NLS in SIM proteins from various species. Thus, the NLS consisting of a cluster of basic amino acids with Pro and Tyr at the C-terminal end is novel and well conserved in the SIM proteins during evolution. [Copyright &y& Elsevier]

Published

2004

14. The Participation of the Intrinsically Disordered Regions of the bHLH-PAS Transcription Factors in Disease Development.

Author

Kolonko-Adamska, Marta, Uversky, Vladimir N., Greb-Markiewicz, Beata, and Niu, Tianhua

Subjects

*POST-translational modification, *CIRCADIAN rhythms, *PHASE separation, *MISSENSE mutation, *GENES, *PARTICIPATION, *DISEASE progression, *TRANSCRIPTION factors

Abstract

The basic helix–loop–helix/Per-ARNT-SIM (bHLH-PAS) proteins are a family of transcription factors regulating expression of a wide range of genes involved in different functions, ranging from differentiation and development control by oxygen and toxins sensing to circadian clock setting. In addition to the well-preserved DNA-binding bHLH and PAS domains, bHLH-PAS proteins contain long intrinsically disordered C-terminal regions, responsible for regulation of their activity. Our aim was to analyze the potential connection between disordered regions of the bHLH-PAS transcription factors, post-transcriptional modifications and liquid-liquid phase separation, in the context of disease-associated missense mutations. Highly flexible disordered regions, enriched in short motives which are more ordered, are responsible for a wide spectrum of interactions with transcriptional co-regulators. Based on our in silico analysis and taking into account the fact that the functions of transcription factors can be modulated by posttranslational modifications and spontaneous phase separation, we assume that the locations of missense mutations inducing disease states are clearly related to sequences directly undergoing these processes or to sequences responsible for their regulation. [ABSTRACT FROM AUTHOR]

Published

2021