Project description:Chromodomain-helicase-DNA-binding protein 4 (CHD4) is an epigenetic regulator identified as an oncogenic element that may provide a novel therapeutic target for the treatment of breast cancer (BC). CHD4-the core component of the nucleosome remodeling and deacetylase (NuRD) complex-may be mutated in patients with this disease. However, information on CHD4 mutants that might allow their use as biomarkers of therapeutic success and prognosis is lacking. The present work examines mutations in CHD4 reported in patients with breast cancer and included in public databases and attempts to identify their roles in its development. The databases revealed 81 point mutations across different types of breast cancer (19 of which also appeared in endometrial, intestinal, nervous system, kidney, and lymphoid organ cancers). 71.6% of the detected mutations were missense mutations, 13.6% were silent, and 6.2% nonsense. Over 50% affected conserved residues of the ATPase motor (ATPase and helicase domains), and domains of unknown function in the C-terminal region. Thirty one mutations were classified in the databases as either 'deleterious', 'probably/possibly damaging' or as 'high/medium pathogenic'; another five nonsense and one splice-site variant were predicted to produce potentially harmful truncated proteins. Eight of the 81 mutations were categorized as putative driver mutations and have been found in other cancer types. Some mutations seem to influence ATPase and DNA translocation activities (R1162W), while others may alter protein stability (R877Q/H, R975H) or disrupt DNA binding and protein activity (R572*, X34_splice) suggesting CHD4 function may be affected. In vivo tumorigenecity studies in endometrial cancer have revealed R975H and R1162W as mutations that lead to CHD4 loss-of-function. Our study provides insight into the molecular mechanism whereby CHD4, and some of its mutants could play a role in breast cancer and suggest important implications for the biological comprehension and prognosis of breast cancer, identifying CHD4 as a novel therapeutic target for BC patients.

Project description:IntroductionThe chromodomain helicase DNA binding protein 5 (CHD5) has recently been identified as a tumor suppressor in a mouse model. The CHD5 locus at 1p36 is deleted, and its mutation has been detected in breast cancer. We, therefore, evaluated whether CHD5 plays a role in human breast cancer.MethodsWe screened mutations in 55 tumors, determined promoter methylation in 39 tumors, measured RNA expression in 90 tumors, analyzed protein expression in 289 tumors, and correlated expression changes with clinicopathological characteristics of breast cancer. Functional effects of CHD5 on cell proliferation, invasion and tumorigenesis were also tested.ResultsAlthough only one mutation was detected, CHD5 mRNA expression was significantly reduced, accompanied by frequent genomic deletion and promoter methylation, in breast cancer. The extent of methylation was significantly associated with reduced mRNA expression, and demethylating treatment restored CHD5 expression. Lower CHD5 mRNA levels correlated with lymph node metastasis (P = 0.026). CHD5 protein expression was also reduced in breast cancer, and lack of CHD5 expression significantly correlated with higher tumor stage, ER/PR-negativity, HER2 positivity, distant metastasis and worse patient survival (P ? 0.01). Functionally, ectopic expression of CHD5 in breast cancer cells inhibited cell proliferation and invasion in vitro and tumorigenesis in nude mice. Consistent with the inhibition of invasion, CHD5 down-regulated mesenchymal markers vimentin, N-cadherin and ZEB1 in breast cancer cells.ConclusionDown-regulation of CHD5, mediated at least in part by promoter methylation, contributes to the development and progression of human breast cancer.

Project description:Herein we characterize an apparently balanced de novo translocation, t(X;15)(p22.2;q26.1)dn, in a female patient with scoliosis, hirsutism, learning problems, and developmental delay (DGAP025). Other clinical findings include a high-arched palate, 2-3 syndactyly of the toes, and mildly elevated serum testosterone. No known or predicted genes are disrupted by the Xp22.2 breakpoint. The 15q26.1 breakpoint disrupts chromodomain helicase DNA binding protein 2 (CHD2). Another member of the chromatin-remodeling gene family, CHD7, has been associated with a defined constellation of congenital anomalies known as coloboma, heart anomaly, choanal atresia, mental retardation, genital and ear anomalies syndrome (CHARGE) and idiopathic scoliosis. Monosomy of 15q26 also has been associated with a spectrum of congenital abnormalities and growth retardation that overlaps with those of DGAP025. To provide a biological correlate, we characterized a mutant mouse model with Chd2 disruption that is associated with embryonic and perinatal lethality. Expression analysis indicated that Chd2 is expressed in the heart, forebrain, extremities, facial and dorsal regions during specific times of embryonic development. Chd2(+/m) mice showed pronounced lordokyphosis, reduced body fat, postnatal runting, and growth retardation. These data suggest that haploinsufficiency for CHD2 could result in a complex of abnormal human phenotypes that includes scoliosis and possibly features similar to CHARGE syndrome.

Project description:BackgroundChromodomain helicase DNA binding protein 1-like (CHD1L) played vital roles in tumorigenesis and development. Its aberrant expression was reported to be related to progression and prognosis in various tumors. However, no consensus on the prognostic value of CHD1L protein has been made. This meta-analysis was aimed to assess the clinical significance of CHD1L protein in human solid tumors.MethodsWeb of Science, PubMed, Embase, China National Knowledge Infrastructure (CNKI), and Wanfang databases were extensively searched to retrieve publications that reported the association between CHD1L expression and cancer prognosis. Hazard ratios (HRs) or odds ratios (ORs) with their 95% confidence intervals (95% CIs) were applied to assess the strength of the associations through Stata statistical software version 12.0 or Revman software 5.3, respectively.ResultA total of 14 studies were screened according to the inclusion criteria. The pooled results revealed patients with higher CHD1L expression manifested with decreased overall survival (OS) (HR: 1.59, 95% CI: 1.29-1.89, P < .001) and poorer disease-free survival (DFS) (HR: 1.66, 95% CI: 1.17-2.15, P < .001). The prognostic value of CHD1L protein for OS was further confirmed by performing subgroup meta-analysis. Furthermore, the pooled results revealed a positive correlation of CHD1L protein expression with tumor depth (OR: 1.87, 95% CI: 1.48-2.37), lymph node metastasis (OR: 1.46, 95% CI: 1.01-2.11), and distant metastasis (OR: 1.86, 95% CI: 1.45-2.38).ConclusionCHD1L overexpression was associated with poor prognosis and advanced clinicopathological features, CHD1L may be a valuable biomarker for prognostication of cancer patients.

Project description:Chromatin remodelers are ATP-dependent machines that dynamically alter the chromatin packaging of eukaryotic genomes by assembling, sliding, and displacing nucleosomes. The Chd1 chromatin remodeler possesses a C-terminal DNA-binding domain that is required for efficient nucleosome sliding and believed to be essential for sensing the length of DNA flanking the nucleosome core. The structure of the Chd1 DNA-binding domain was recently shown to consist of a SANT and SLIDE domain, analogous to the DNA-binding domain of the ISWI family, yet the details of how Chd1 recognized DNA were not known. Here we present the crystal structure of the Saccharomyces cerevisiae Chd1 DNA-binding domain in complex with a DNA duplex. The bound DNA duplex is straight, consistent with the preference exhibited by the Chd1 DNA-binding domain for extranucleosomal DNA. Comparison of this structure with the recently solved ISW1a DNA-binding domain bound to DNA reveals that DNA lays across each protein at a distinct angle, yet contacts similar surfaces on the SANT and SLIDE domains. In contrast to the minor groove binding seen for Isw1 and predicted for Chd1, the SLIDE domain of the Chd1 DNA-binding domain contacts the DNA major groove. The majority of direct contacts with the phosphate backbone occur only on one DNA strand, suggesting that Chd1 may not strongly discriminate between major and minor grooves.

Project description:Serum response factor (SRF) is a widely expressed protein that plays a key role in the regulation of smooth muscle differentiation, proliferation, migration, and apoptosis. It is generally accepted that one mechanism by which SRF regulates these diverse functions is through pathway-specific cofactor interactions. A novel SRF cofactor, chromodomain helicase DNA binding protein 8 (CHD8), was isolated from a yeast two-hybrid screen using SRF as bait. CHD8 is highly expressed in adult smooth muscle tissues. Coimmunoprecipitation assays from A10 smooth muscle cells demonstrated binding of endogenous SRF and CHD8. Data from GST-pulldown assays indicate that the NH(2)-terminus of CHD8 can interact directly with the MADS domain of SRF. Adenoviral-mediated knockdown of CHD8 in smooth muscle cells resulted in attenuated expression of SRF-dependent, smooth muscle-specific genes. Knockdown of CHD8, SRF, or CTCF, a previously described binding partner of CHD8, in A10 VSMCs also resulted in a marked induction of apoptosis. Mechanistically, apoptosis induced by CHD8 knockdown was accompanied by attenuated expression of the anti-apoptotic proteins, Birc5, and CARD10, whereas SRF knockdown attenuated expression of CARD10 and Mcl-1, but not Birc5, and CTCF knockdown attenuated expression of Birc5. These data suggest that CHD8 plays a dual role in smooth muscle cells modulating SRF activity toward differentiation genes and promoting cell survival through interactions with both SRF and CTCF to regulate expression of Birc5 and CARD10.

Project description:Nasopharyngeal carcinoma (NPC) is a malignancy with a high metastatic ability. Recent studies have implicated the role of chromodomain helicase/ATPase DNA binding protein 1-like (CHD1L) gene as a novel oncogene; however, the functional role of CHD1L in NPC remains unknown. The aim of this study was to evaluate the clinical significance of CHD1L positivity in NPC. CHD1L protein expression was examined by performing western blot analysis of 30 fresh NPC tissues and conducting immunohistochemistry tests of 133 NPC samples between December 1, 2005 and December 1, 2009. The correlations of CHD1L expression status with clinicopathological features and prognosis were investigated. Immunohistochemical analysis showed that 88 of 133 (66.2%) paraffin-embedded NPC biopsies exhibited positive expression of CHD1L, but all non-cancerous nasopharyngeal specimens were negative for CHD1L expression. In addition, positive CHD1L expression was strongly associated with an advanced clinical stage (P=0.016), recurrence (P=0.002) and the metastasis status (P=0.031) of NPC. Kaplan-Meier survival analysis demonstrated that patients with CHD1L-positive NPC had significantly shorter overall survival (P<0.001). Furthermore, the multivariate analysis indicated that CHD1L protein expression was an independent prognostic factor for overall survival (hazard ratio, 7.916; 95% confidence interval, 2.067-16.034; P=0.003) in patients with NPC. These results indicate that CHD1L is a prognostic marker for NPC.

Project description:ImportanceThis study investigated the role of the chromodomain helicase DNA-binding protein 7 (CHD7) in disorders of sex development (DSD).ObjectiveWe aimed to present the potential pathogenicity of CHD7 variants in pediatric patients with DSD.MethodsChoosing cases with CHD7 variants from DSD patients in Beijing Children's Hospital to assess for the study. Prediction software tools were used to predict variant pathogenicity in these subjects.ResultsAmong the 113 DSD patients, 22 cases had CHD7 variants. Twenty-four different CHD7 variants were identified in the 22 DSD patients. Prediction software combined with ClinVar database information and their clinical manifestations revealed that, of the 18 patients with 46, XY DSD, two had CHARGE syndrome and two had Kallmann syndrome. Seven of the variants were highly categorized as "likely to be pathogenic" and seven as "suspected to be pathogenic". Of the four patients with 46, XX DSD, three had ovotesticular DSD (c.305A>G, c.2788G>A, and c.3098G>A) and one had testicular DSD (c.2831G>A).InterpretationA high frequency of CHD7 variants was found in the DSD patients, especially those with 46, XY DSD. Thus, the detection of a pathogenic CHD7 variant could suggest a diagnosis of hypogonadotropic hypogonadism for 46, XY DSD patients, but pre-pubescent patients should be reassessed in adolescence to confirm this diagnosis. This study also suggests that DNA sequencing could help to identify pre-pubescent DSD patients. Further data are required to determine the connection between CHD7 variants and sex-reversal in patients with 46, XX DSD, and the accumulation of these data is essential and necessary for DSD research.

Project description:Dynamic regulation of gene expression is vital for proper cellular development and maintenance of differentiated states. Over the past 20 years, chromatin remodeling and epigenetic modifications of histones have emerged as key controllers of rapid reversible changes in gene expression. Mutations in genes encoding enzymes that modify chromatin have also been identified in a variety of human neurodevelopmental disorders, ranging from isolated intellectual disability and autism spectrum disorder to multiple congenital anomaly conditions that affect major organ systems and cause severe morbidity and mortality. In this study, we review recent evidence that chromodomain helicase DNA-binding (CHD) proteins regulate stem cell proliferation, fate, and differentiation in a wide variety of tissues and organs. We also highlight known roles of CHD proteins in human developmental diseases and present current unanswered questions about the pleiotropic effects of CHD protein complexes, their genetic targets, nucleosome sliding functions, and enzymatic effects in cells and tissues.

Project description:BackgroundWe aimed to investigate the effect of chromodomain-helicase-DNA-binding protein 1-like (CHD1L) silencing on the biological behavior of gastric cancer cells.MethodsSmall hairpin RNA (shRNAs) targeting CHD1L were designed and transduced into BGC-823 human gastric cancer cells. Expression of p53, p21, nerve growth factor IB (Nur77), and ARHGEF9 was assessed by western blotting, and the effect of CHD1L silencing on gastric cancer cell proliferation, apoptosis, and migration was examined by MTT, flow cytometry, and wound healing assays, respectively.ResultsIn CHD1L-shRNA-1-treated cells, the expression of p53, p21, Nur77, and ARHGEF9 was significantly upregulated, and the number of apoptotic cells was significantly increased compared to the shRNA-negative control (NC; P<0.05). Additionally, the number of cells in the G1 phase was significantly increased among CHD1L-shRNA-1-treated cells. In contrast, the number of cells in the S phase was significantly decreased among CHD1L-shRNA-1-treated cells compared to shRNA-NC-treated cells (P<0.05). Following CHD1L silencing, there were 58.63±10.97 invading cells compared to 144.95±12.68 and 148.49±17.86 in the shRNA-NC and untreated groups, respectively (P<0.05). After 24 h, CHD1L-silenced BGC-823 cells migrated 0.54±0.34 µm compared to 1.34±0.26 and 1.31±0.31 µm in the shRNA-NC and untreated groups, respectively (P<0.05).ConclusionsCHD1L silencing significantly inhibited the proliferation, invasion, and migration of BGC-823 gastric cancer cells and induced apoptosis. Knockdown of CHD1L may present a novel approach for treating gastric cancer.