Human Genetics And Molecular Medicine - Research Publications
Permanent URI for this collectionhttps://kr.cup.edu.in/handle/32116/107
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Item High levels of unfolded protein response component CHAC1 associates with cancer progression signatures in malignant breast cancer tissues(Springer Science and Business Media Deutschland GmbH, 2022-08-05T00:00:00) Mehta, Vikrant; Suman, Prabhat; Chander, HarishPurpose: The aberrant mRNA expression of a UPR component Cation transport regulator homolog 1 (CHAC1) has been reported to be associated with poor survival in breast and ovarian cancer patients, however, the expression of CHAC1 at protein levels in malignant breast tissues is underreported. The following study aimed at analyzing CHAC1 protein expression in malignant breast cancer tissues. Methods: Evaluation of CHAC1 expression in invasive ductal carcinomas (IDCs) with known ER, PR, and HER2 status was carried out using immunohistochemistry (IHC) with CHAC1 specific antibody. The Human breast cancer tissue microarray (TMA, cat# BR1503f, US Biomax, Inc., Rockville, MD) was used to determine CHAC1 expression. The analysis of CHAC1 IHC was done to determine its expression in terms of molecular subtypes of breast cancer, lymph node status, and proliferation index using Qu-Path software. Survival analysis was studied with a Kaplan�Meier plotter. Results: Immunohistochemical analysis of CHAC1 in breast cancer tissues showed significant up-regulation of CHAC1 as compared to the adjacent normal and benign tissues. Interestingly, CHAC1 immunostaining revealed high expression in tumor tissues with high proliferation and positive lymph node metastasis suggesting that CHAC1 might have an important role to play in breast cancer progression. Furthermore, high CHAC1 expression is associated with poor overall survival (OS) in large breast cancer patient cohorts. Conclusion: As a higher expression of CHAC1 was observed in tissue cores with high Ki67 index and positive lymph node metastasis it may be concluded that enhanced CHAC1 expression correlates with proliferation and metastasis. The further analysis of breast cancer patients� survival data through KM plot indicated that high CHAC1 expression is associated with a bad prognosis hinting that CHAC1 may have a possible prognostic significance in breast cancer. � 2022, The Author(s), under exclusive licence to Federaci�n de Sociedades Espa�olas de Oncolog�a (FESEO).Item Transcriptional Regulation of Pro-metastatic Protein Formin Binding Protein17 (FBP17) in Breast Cancer(Central University of Punjab, 2018) Suman, Prabhat; Chander, HarishBreast cancer is a diverse disease with multiple subtypes. Among the different molecular subtypes, triple negative breast cancers (TNBC) harbor frequent mutation in tumor suppressor p53. Recently it was shown that p53 suppresses Transducer of Cdc42-dependent Actin assembly-1 (Toca-1) that belongs to CIP4 subfamily. Members of the family including FBP17 play a significant role in actin assembly. FBP17 and Toca-1 have been recognized as key scaffolds for recruiting actin regulatory protein to promote invadopodia formation. Metastatic cancer cells form invadopodia and the F-BAR proteins are shown to enhance invadopodia. FBP17 consists of F-BAR domain, Cdc-15 homology, putative Rho-binding domain and SH3 domain. In the present study, we elucidate the correlation between p53 and FBP17 that affects metastatic potential of cancer cells. We observed that cancer cell lines with mutated p53 have high levels of FBP17. Activation of wild type p53 reduces FBP17 both at mRNA and protein level. Further, the ectopic expression of wild type p53 reduces FBP17 whereas mutant p53 failed to do so. Different cell lines and different methods of p53 activation were used to study the p53-FBP17 axis. Chromatin immunoprecipitation studies revealed the binding of p53 in the promoter of FBP17. The metastatic potential of breast cancer cells was observed after double knock down of both p53 and FBP17. Interestingly, we found that combined silencing of these two proteins led to a partial rescue of invasion upon p53 silencing in vitro. In conclusion we suggest that p53 controls FBP17 expression and FBP17 contributes to the invasion of cancer cells upon loss of p53 activity in cancer.