Correction: PARP-1 inhibitor modulate β-catenin signaling to enhance cisplatin sensitivity in cancer cervix

A Pilot Study Based on the Correlation Between Whole Exome and Transcriptome Reveals Potent Variants in the Indian Population of Cervical Cancer

Cervical malignancy (CC) is the 2nd most prevalent malignancy among females, leading to cancer mortality. Primary detection of CC tumors results in an improved prognosis. CC is a malignant gynecological tumor, with few treatment options. New diagnostic and therapeutic agents are required to expand patient survival and quality of life. If CC tumors can be found at an early stage, the prognosis is much brighter. New diagnostic and therapeutic agents are needed to increase patient survival and quality of life. In this work, we performed whole-exome sequencing utilizing V5 (Illumina platform) 10 samples, 5 control and 5 CC tumour tissue, and we compared the results with transcriptome studies. KMT2C variations were shown to be among the most vicious in this analysis. From an Indian viewpoint, we found a plethora of SNVs and mutations, including those with known, unknown, and possible effects on health. Based on our findings, we know that the KMT2C gene is on chr. Seven and in exon 8, all three recognized variants are missense, synonymous, coding synonymous, non-coding variants, and GnomAD MAF (- 0.05). The variation at position (7:152265091, T > A, SNV 62478356) in KMT2C is unique, potent, and pathogenic. The missense coding transcript CIQTNF maps to chromosome 7 and displays T > C SNV. In addition, we performed single strand conformational polymorphism analysis on 64 samples and further confirmed them using Sanger sequencing to understand and verify the mutations. KMT2C shows a log FC value of - 1.16. Understanding emerging harmful mutations from an Indian viewpoint is facilitated by our bioinformatics-based, extensive correlation studies of WES analysis. Potentially harmful and new mutations were found in our preliminary analysis; among these ten top mutated genes, KMT2C and CIQTNF were altered in ten cases of CC with an Indian phenotype.

Current Treatment for Cervical Cancer: An Update

Cervical cancer is the leading gynecologic health problem which is considered as the 4th most widespread tumour in women. The prevalence of this fatal ailment is emerging gradually across the globe as about 18.1 million new cancer cases have been reported in 2018. The predominance of cervical cancer has been significantly found in low and middle-income countries as cervical cancer ranks fourth for both incidence and mortality, conversely, there are no effective screening systems available. This mortal state is certainly influenced by exposure of human papillomavirus, dysregulation of caspase enzyme, elevated expression of Inhibitor Apoptotic Protein (IAP), overexpression of Vascular Endothelial Growth Factors (VEGF), active/passive smoking, and dysfunction of the immune system. Generally, the clinical trial on pipeline drugs leads to the development of some promising new therapies that are more effective than standard approaches and often unavailable outside of the clinical setting. Indeed, several biological interventions that can modulate the pathological cascade of cervical cancer are still under investigation. Thus, there is a need to further summarise the promising therapies for cervical cancer as we have accomplished in HER2-positive breast cancer by targeting HER2 therapies and immune checkpoint inhibitors in melanoma. The present report revealed the pharmacokinetic/ pharmacodynamics aspects of various pipeline drugs that are promising for the treatment of cervical cancer. Moreover, the study revealed the possible mechanism, adverse drug reaction, combined therapy and pleiotropic action of these under investigational drugs, which can further improve the therapeutic efficacy and restrict the imaginable harmful effects.

MicroRNA-506-3p increases the response to PARP inhibitors and cisplatin by targeting EZH2/β-catenin in serous ovarian cancers

Chemo-resistance is an important barrier to effective treatment of ovarian cancer. Poly (ADP-ribose) polymerase (PARP) inhibitors are currently promising targeted drugs used to treat BRCA-mutant ovarian cancer. Ovarian cancer patients with BRCA 1/2 mutations appear to benefit better from PARP inhibitors and chemotherapy. Understanding the mechanisms underlying PARP inhibitors and chemotherapy resistance is urgently needed. There is increasing evidence that microRNAs (miRNAs) are involved in drug resistance. MiR-506-3p is an effective inhibitor of the epithelial-to-mesenchymal transition (EMT), and can enhance chemotherapy and olaparib response in high-grade serous ovarian cancer (HGS-OvCa). Enhancer of Zeste Homolog 2 (EZH2) is considered as a direct target of miR-506-3p. The silencing of EZH2 mimics the inhibitory effects of miR-506-3p on chemo-resistance and olaparib response. Rescue of EZH2 prevented the functions of miR-506-3p. Moreover, EZH2 activates the β-catenin pathway. MiR-506-3p overexpression decreased the level of β-catenin, and the sensitivity to olaparib and cisplatin mediated by miR-506-3p was partially reversed by regulating β-catenin expression in ovarian cancer. Our results suggest that miR-506-3p increases response to PARP inhibitors and cisplatin in serous ovarian cancer by targeting EZH2/β-catenin signal pathway, which opens the possibility of using miR-506-3p overexpression as a potential therapeutic for ovarian cancer.

PARP Inhibitors in Gynecologic Cancers: What Is the Next Big Development?

PURPOSE OF REVIEW

Conventional and novel applications of Poly(adenosine diphosphate [ADP]-ribose) polymerase (PARP) inhibitors (PARPi) are reviewed in the context of recently published clinical trials and preclinical data supporting rapidly expanding uses of this class of chemotherapy.

RECENT FINDINGS

PARPi block a pathway of DNA repair and target defects in homologous recombination repair (HRR), a pathway responsible for high-fidelity repair of double-strand breaks in DNA. BRCA1/2 proteins are essential to this pathway. Approximately 15-30% of women with ovarian cancer will have a germline or somatic BRCA mutation, and PARPi have shown promise in this population in a variety of settings. With growing understanding of the HRR pathway and its role in gynecologic malignancies, the potential applications of PARPi continue to expand. While the role of PARPi in gynecologic malignancies is most established in ovarian cancer, there are also promising applications in uterine and cervical cancer. We review current indications for PARPi use and promising applications of these medications in gynecologic malignancies.

Emetine Synergizes with Cisplatin to Enhance Anti-Cancer Efficacy against Lung Cancer Cells

Cisplatin is still the primary therapeutic choice for advanced lung cancers without driver mutations. The occurrence of cisplatin resistance is a major clinical problem in lung cancer treatment. The natural extracted agent emetine reportedly has anticancer effects. This study aimed to explore the possible role of emetine in cisplatin resistance. We used cell viability, Western blot, and Wnt reporter assays to show that emetine suppresses proliferation, β-catenin expression, and Wnt/β-catenin signaling in non-small cell lung cancer (NSCLC). The synergism of emetine and cisplatin was assessed by constructing isobolograms and calculating combination index (CI) values using the Chou-Talalay method. Emetine effectively synergized with cisplatin to suppress the proliferation of cancer cells. Furthermore, nuclear β-catenin and cancer stem cell-related markers were upregulated in the cisplatin-resistant subpopulation of CL1-0 cells. Emetine enhanced the anticancer efficacy of cisplatin and synergized with cisplatin in the cisplatin-resistant subpopulation of CL1-0 cells. Taken together, these data suggest that emetine could suppress the growth of NSCLC cells through the Wnt/β-catenin pathway and contribute to a synergistic effect in combination with cisplatin.