In vivo assessment of simultaneous G1 cyclins silencing by a tumor-specific bidirectional promoter on the mammary tumor in nude mice.

Dysregulation of G1 cyclins (cyclins D1 A and E) expression contributes to the loss of standard cell cycle control during tumorigenesis. This study aims to evaluate the inhibitory effect of G1 cyclins in nude mice. The human breast cancer MDA-MB-231 cells were subcutaneously transplanted into the supra-femoral right side of female Balb/c-nude mice. The dual shRNA vector harboring G1 cyclins shRNAs (bipSUR) was intratumorally injected by the in vivo jetPEI transfection reagent for 2 weeks. We have evaluated tumor growth and tumor weight as parameters of tumor progression. Finally, necropsy, histopathological analysis, and immunodetection of G1 cyclins were assessed. Also, apoptosis induction in tumor tissues was evaluated by TUNEL assay. No toxicity and metastasis was observed in the tumor-bearing mice treated by the bipSUR. Tumor weight and volume were significantly lower in the bipSUR treated mice than untreated tumor-bearing mice and control. Histopathological observations revealed more apoptotic foci and lower mitotic cells in tumor sections in the treated mice than in control groups. A significant reduction of G1 cyclins at the protein level was indicated in the bipSUR treated mice than in other groups. Apoptosis in tumor tissues was remarkably induced in response to the bipSUR (42.53%). The bipSUR reduced the protein expression of G1 cyclins and exhibited an inhibitory effect on MDA-MB-231 xenograft mice through apoptosis induction. Further research is demanded to identify the protein partners of G1 cyclins involved in the cancer pathways. These may offer new insight into the biomedical function of G1 cyclins in breast cancer progression.

Evaluation of Arylsulfatase D (ARSD) and long noncoding RNA ARSD-AS1 gene expression in breast cancer patients and their association with oncogenic transcription factors.

PURPOSE: Long non-coding RNAs (LncRNAs) are thought as tumorigenic factors in cancer progression. We investigated the clinical significance of arylsulfatase D (ARSD) and ARSD antisense in breast cancer patients. METHODS: Eighty breast cancer tumors were obtained from the Tumor Bank of Cancer Institute, Imam Khomeini Hospital. The expression level of ARSD and ARSD-AS1 were examined in breast tumors in comparison to the margin of normal tissues using quantitative real-time PCR. Demographic information and the clinicopathologic characteristics including tumor grade, presence of cell receptors, lymph node and vascular invasion were also evaluated. Bioinformatics databases were used for identification of ARSD and ARSD-AS1 molecular targets and their association with cancer. RESULTS: Significant up-regulation of ARSD was observed in tumor tissues in comparison with its antisense (p<0.05). Both ARSD and ARSD-AS1 expression in tumor specimens were notably lower than those in adjacent normal tissue. High expression of ARSD was associated to lower tumor grade (p<0.05). Bioinformatics results revealed the interaction of ARSD with STS and SUMF1 proteins was attributed to the inhibiting of sulfates activity. Also, ARSD co-expressed genes were associated with oncogenic transcription factors, MAF and GATA. TP53 transcription factor site was identified as a target of ARSD-AS1 mRNA. The interaction of this antisense with microRNA (miR-618) could explain its participation in tumor cell proliferation. CONCLUSION: Low expression of ARSD was associated with higher tumor grade. The evidence from this study enhance our understanding of ARSD and ARSD-AS1 function in cancer gene therapy. Accordingly, they could be introduced as great potential targets for breast cancer treatment.

Frequency of VanA, VanB and VanH variants amongst vancomycin-resistant enterococci isolated from patients in central region of Iran.

AIM: The aim of this study was to investigate the VRE frequency and the rate of each gene in isolated enterococci from patients with intestinal infection in the central region of Iran. BACKGROUND: Enterococci infections are a public health growing concern due to the glycopeptide antibiotics resistance especially vancomycin. Genes, vanA, B, and H contribute to the influence of vancomycin-resistant enterococci (VRE). PATIENTS AND METHODS: This study was conducted from January to July 2014 in Shahrood university hospital. Enterococci isolation and its antibacterial susceptibility were performed by culturing in Aesculin Azide agar and Kirby-Bauer method, respectively. Vancomycin-resistant genes were screened through conventional PCR, and subsequently sequenced. RESULTS: Among 265 specimens, 100 isolates revealed enterococci, in which E. faecalis (91%) and E. faecium (9%). The isolated enterococci were resistant to vancomycin (6%) and chloramphenicol (21%), whereas their large proportions (94% to 100%) were multi-drug resistant. All VRE isolates belonged to E. faecalis, conversely, the E. faecium were susceptible to the same antibiotic. Both vanA and vanH genes were identified in all VRE isolates, although, no vanB gene was indicated. Homology analysis of sequenced amplicons verified the full length compatibility to the worldwide reported genes. CONCLUSION: The present study revealed VR E.faecalis in gastroenteritis patients and resistance factor for vanA and vanH genes are coordinated. Since enterococci isolates were all multidrug resistance, increase in VR E.faecalis vanA / vanH in this area could be expected.