Kavya Sri Racherla scite author profile

Kavya Sri Racherla

3Publications

35Citation Statements Received

54Citation Statements Given

How they've been cited

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318

Affiliations

University of Illinois Chicago, Rockford campus, Illinois College, University of Illinois at Chicago

Publications

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Potential Telomere-Related Pharmacological Targets

Berei

Eckburg

Miliavski

et al. 2020

CTMC

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Telomeres function as protective caps at the terminal portion of chromosomes, containing non-coding nucleotide sequence repeats. As part of their protective function, telomeres preserve genomic integrity and minimize chromosomal exposure, thus limiting DNA damage responses. With continued mitotic divisions in normal cells, telomeres progressively shorten until they reach a threshold at a point where they activate senescence or cell death pathways. However, the presence of the enzyme telomerase can provide functional immortality to the cells that have reached or progressed past senescence. In senescent cells that amass several oncogenic mutations, cancer formation can occur due to genomic instability and the induction of telomerase activity. Telomerase has been found to be expressed in over 85% of human tumors and is labeled as a near-universal marker for cancer. Due to this feature being present in a majority of tumors but absent in most somatic cells, telomerase and telomeres have become promising targets for the development of new and effective anticancer therapeutics. In this review, we evaluate novel anticancer targets in development which aim to alter telomerase or telomere function. Additionally, we analyze the progress that has been made, including preclinical studies and clinical trials, with therapeutics directed at telomere-related targets. Furthermore, we review the potential telomere-related therapeutics that are used in combination therapy with more traditional cancer treatments. Throughout the review, topics related to medicinal chemistry are discussed, including drug bioavailability and delivery, chemical structure-activity relationships of select therapies, and the development of a unique telomere assay to analyze compounds affecting telomere elongation.

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Synthesis, characterization and biocompatibility studies of carbon quantum dots from Phoenix dactylifera

et al. 2020

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In the present study, Carbon Quantum Dots (CQDs) were synthesized from Phoenix dactylifera (Date palm fruit) using microwave-assisted pyrolysis and were characterized for its various properties. The synthesized CQD sample exhibited a narrow absorbance peak at 270 nm in UV-Vis spectrum that indicated generation of narrow sized particles. The FTIR analysis of the crude CQDs and dialysed sample revealed the various functional groups involved in the formation of CQDs. TEM data revealed the nature of CQDs to be quasi-spherical and spatially distributed. Biocompatibility of the CQDs was studied using various model systems. CQDs displayed no cytotoxic and anti-clonogenic property when exposed to WRL-68 cell line whereas a slight toxicity was evident in HT1080 post 24 h of incubation suggesting the tremendous potential of the CQDs in the synergistic killing of cancer cells. Phytotoxicity assessment in four different seedlings revealed the non-toxic nature of CQDs. Further these CQDs were found to possess high biocompatibility imposing no inhibition in microbial growth and zilch effect on the development of zebrafish embryos. Thus these CQDs can find immense potential applications in fields of biomedicine as biomolecule detection, drug carriers, fluorescent tracers and in controlling the drug release.

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Abstract 1431: Role of emt biomarkers in mediating osimertinib resistance in non-small cell lung cancer

Racherla

Dovalovsky

Puri

2021

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Osimeritinib (OR), a Tyrosine Kinase Inhibitor is a first-line therapy in EGFR-mutant NSCLC patients. Resistance to OR treatment may occur due to acquired C797S mutations, MET amplifications and ALK rearrangements and other mechanisms not clearly defined. EMT may be one of the reasons for TKI resistance. EMT is a process by which epithelial cells acquire mesenchymal characteristics that increase invasiveness. We hypothesize that loss of E-cadherin during EMT, results in abnormal localization of p120 catenin, an E-cadherin regulating protein, and Kaiso factor, a repressor of Wnt signaling, promoting oncogenesis. Protein arginine methyl transferase 1 (PRMT1) an EMT regulator catalyzes methylation of Twist1, which represses E-cadherin. However, their role in OR resistance is still unknown. We have made parental (P) NSCLC cells, H2170, H358, H1975 and H3255 resistant to OR. MTT assays were performed on the parental cells and OR resistant cells which showed that the H2170OR, H3255OR, H358OR, H1975OR cells had IC50 for OR, 2.8-14 fold higher in comparison to parental cells, respectively. We further performed qPCR to study the modulation of EMT biomarkers in OR cells as compared to parental cells and found upregulation of PRMT1, p120 catenin and Kaiso factor by 1.5-3.67 fold respectively in H1975 cells and 1.5-5.73 fold in H3255 cells. Immunofluorescence studies in H1975OR cells for expression of PRMT1 showed that there was 3.18 fold increase as compared to 2.21 fold increase in Erlotinib resistant H1975 (H1975ER) and 4.77 fold increase in H3255OR as compared to 2.27 fold increase in H3255ER. After transfection with p120 siRNA we found that OR efficacy was increased by 33% in comparison to mock siRNA and OR treated cells. The percentage wound closure after 24 hours was found to be 26.2% in the p120-catenin siRNA transfected cells as compared to 7.4%.in mock siRNA transfected cells (p<0.05) indicating its role in EMT and cell migration. Furthermore, our results showed increased expression of p120 catenin in smokers with 50% of smokers showing high expression compared to 0% and 5.8% of quit smokers and nonsmokers indicating that high p-120 expression was associated with smoking (P=0.002). In conclusion, biomarkers like PRMT1 may mediate the process of EMT by methylation of Twist1 and upregulation of p120 that prevents transcriptional repression of Kaiso factor target genes, promoting EMT in OR and ER resistant cells. p-120 expression was found to be higher in smokers compared to quit/nonsmokers indicating that it may have a potential role in lung cancer. Citation Format: Kavya Sri Racherla, Katrina Dovalovsky, Neelu Puri. Role of emt biomarkers in mediating osimertinib resistance in non-small cell lung cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1431.

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