Your search keyword '"Kaul, Sunil C"' showing total 8 results

1. Three-Way Cell-Based Screening of Antistress Compounds: Identification, Validation, and Relevance to Old-Age-Related Pathologies.

Author

Zhang, Huayue, Wang, Jia, Prakash, Jay, Zhang, Zhenya, Kaul, Sunil C, and Wadhwa, Renu

Subjects

MEDICAL screening, DOUBLE-strand DNA breaks, ADAPTIVE natural resource management, CHEMICAL models, COBALT chloride

Abstract

A variety of environmental stress stimuli have been linked to poor quality of life, tissue dysfunctions, and ailments including metabolic disorders, cognitive impairment, and accelerated aging. Oxidative, metal, and hypoxia stresses are largely associated with these phenotypes. Whereas drug development and disease therapeutics have advanced remarkably in last 3 decades, there are still limited options for stress management. Because the latter can effectively decrease the disease burden, we performed cell-based screening of antistress compounds by recruiting 3 chemical models of oxidative (paraquat), metal (cadmium nitrate), or hypoxia (cobalt chloride) stresses. The screening of 70 compounds for their ability to offer protection against oxidative, metal, and hypoxia stresses resulted in the selection of 5 compounds: Withaferin-A (Wi-A), methoxy Withaferin-A (mWi-A), Withanone (Wi-N), triethylene glycol (TEG), and Ashwagandha (Withania somnifera) leaf M2-DMSO extract (M2DM). Molecular assays revealed that whereas stress caused increase in (a) apoptosis, (b) reactive oxygen species accumulation coupled with mitochondrial depolarization, (c) DNA double-strand breaks, and (d) protein aggregation, low nontoxic doses of the selected compounds caused considerable protection. Furthermore, Wi-N, TEG, and their mixture-treated normal human fibroblasts (at young, mature, and senescent stages representing progressively increasing accumulation of stress) showed increase in proliferation. Taken together, these results suggested 3-way (oxidative, metal, and hypoxia) antistress potential of Wi-N and TEG that may be useful for management of environmental and old-age–related pathologies. [ABSTRACT FROM AUTHOR]

Published

2023

2. Induction of Senescence in Cancer Cells by a Novel Combination of Cucurbitacin B and Withanone: Molecular Mechanism and Therapeutic Potential.

Author

Garg, Sukant, Huifu, He, Kumari, Anjani, Sundar, Durai, Kaul, Sunil C, and Wadhwa, Renu

Subjects

CELLULAR aging, CANCER cells, VASCULAR endothelial growth factors, FIBRONECTINS, NON-small-cell lung carcinoma, CANCER cell migration

Abstract

Cancer, an uncontrolled proliferation syndrome, is treated with synthetic chemotherapeutic drugs that are associated with severe adverse effects. Development and application of new natural compounds is warranted to deal with the exponentially increasing incidence of cancer worldwide. Keeping selective toxicity to cancer cells as a priority criterion, we developed a combination of Cucurbitacin B and Withanone, and analyzed its anticancer potential using non-small cell lung cancer cells. We demonstrate that the selective cytotoxicity of the combination, called CucWi-N, to cancer cells is mediated by induction of cellular senescence that was characterized by decrease in Lamin A/C, CDK2, CDK4, Cyclin D, Cyclin E, phosphorylated RB, mortalin and increase in p53 and CARF proteins. It compromised cancer cell migration that was mediated by decrease in mortalin, hnRNP-K, vascular endothelial growth factor, matrix metalloproteinase 2, and fibronectin. We provide in silico, molecular dynamics and experimental data to support that CucWi-N (i) possesses high capability to target mortalin-p53 interaction and hnRNP-K proteins, (ii) triggers replicative senescence and inhibits metastatic potential of the cancer cells, and (iii) inhibits tumor progression and metastasis in vivo. We propose that CucWi-N is a potential natural anticancer drug that warrants further mechanistic and clinical studies. [ABSTRACT FROM AUTHOR]

Published

2020

3. Molecular Insights Into Withaferin-A-Induced Senescence: Bioinformatics and Experimental Evidence to the Role of NFκB and CARF.

Author

Bhargava, Priyanshu, Malik, Vidhi, Liu, Ye, Ryu, Jihoon, Kaul, Sunil C, Sundar, Durai, and Wadhwa, Renu

Subjects

ANTINEOPLASTIC agents, BIOINFORMATICS, NF-kappa B, CANCER cells, CELLULAR aging

Abstract

Withaferin-A (Wi-A) has been shown to possess anticancer activity. Molecular mechanism(s) of its action has not been fully resolved. We recruited low dose of Wi-A that caused slow growth arrest in cancer cells and was relatively safe for normal cells. Consistently, we detected nuclear translocation of nuclear factor kappa B (NFκB) and activation of p38MAPK selectively in cancer cells. Bioinformatics analyses revealed that Wi-A did not disrupt IKKα/IKKβ-Nemo complex that regulates NFκB activity. However, it caused moderate change in the conformation of IKKβ-Nemo interacting domain. Experimental data revealed increased level of phosphorylated IκBα in Wi-A-treated cells, suggesting an activation of IKK complex that was supported by nuclear translocation of NFκB. Molecular docking analysis showed that Wi-A did not disrupt; however, decreased the stability of the NFκB-DNA complex. It was supported by downregulation of DNA-binding and transcriptional activities of NFκB. Further analysis revealed that Wi-A caused upregulation of CARF (collaborator of ARF) demonstrating an activation of DNA damage oxidative stress response in both cancer and normal cells. In line with this, upregulation of p21WAF1, p16INK4A, and hypophosphorylated pRB and induction of senescence were observed demonstrating that Wi-A-induced senescence is mediated by multiple pathways in which CARF-mediated DNA damage and oxidative stress play a major role. [ABSTRACT FROM AUTHOR]

Published

2019

4. Targeting of DNA Damage Signaling Pathway Induced Senescence and Reduced Migration of Cancer cells.

Author

Gao, Ran, Singh, Rumani, Kaul, Zeenia, Kaul, Sunil C, and Wadhwa, Renu

Abstract

The heat shock 70 family protein, mortalin, has pancytoplasmic distribution pattern in normal and perinuclear in cancer human cells. Cancer cells when induced to senesce by either chemicals or stress showed shift in mortalin staining pattern from perinuclear to pancytoplasmic type. Using such shift in mortalin staining as a reporter, we screened human shRNA library and identified nine senescence-inducing siRNA candidates. An independent Comparative Genomic Hybridization analysis of 35 breast cancer cell lines revealed that five (NBS1, BRCA1, TIN2, MRE11A, and KPNA2) of the nine genes located on chromosome regions identified as the gain of locus in more than 80% cell lines. By gene-specific PCR, these five genes were found to be frequently amplified in cancer cell lines. Bioinformatics revealed that the identified targets were connected to MRN (MRE11-RAD50-NBS1) complex, the DNA damage-sensing complex. We demonstrate that the identified shRNAs triggered DNA damage response and induced the expression of tumor suppressor protein p16(INK4A) causing growth arrest of cancer cells. Furthermore, cells showed decreased migration, mediated by decrease in matrix metalloproteases. Taken together, we demonstrate that the MRN complex is a potential target of cancer cell proliferation and migration, and staining pattern of mortalin could serve as an assay to identify senescence-inducing/anticancer reagents. [ABSTRACT FROM AUTHOR]

Published

2015

5. Deceleration of Sensescence in Normal Human Fibroblasts by Withanone Extracted From Ashwagandha Leaves.

Author

Widodo, Nashi, Shah, Navjot, Priyandoko, Didik, Ishii, Tetsuro, Kaul, Sunil C., and Wadhwa, Renu

Subjects

AYURVEDIC medicine, DIETARY supplements, TRADITIONAL medicine, TONICS (Medicinal preparations), QUALITY of life, AGING

Abstract

Ashwagandha is an Ayurvedic shrub that forms a common ingredient of health supplements, tonics, and Indian home remedies designed to promote health and quality of life. Though sustained through experience and history, there are only a limited laboratory studies and experimental evidence to its effects. In our efforts to characterize Ashwagandha activities and their molecular mechanisms, we initially prepared leaf extract of Ashwagandha (i-Extract) that showed tumor-inhibitory activity. In the present study, we demonstrate that a major component of i-Extract and withanone (i-Factor) protected the normal human fibroblasts against the toxicity caused by withaferin A. It increased the in vitro division potential of normal human cells that appeared to be mediated by decreased accumulation of molecular damage, downregulation of the senescence-specific β-galactosidase activity and the senescence marker protein, p21 WAF-1 , protection against oxidative damage, and induction of proteasomal activity. To the best of our knowledge, we provide the first example of phytochemical(s) (i-Extract and withanone) that have both anticancer and antiaging activities and point to the molecular link between aging and cancer. [ABSTRACT FROM AUTHOR]

Published

2009

6. Stress Chaperones, Mortalin, and Pex19p Mediate 5-Aza-2′ Deoxycytidine-Induced Senescence of Cancer Cells by DNA Methylation-Independent Pathway.

Author

Widodo, Nashi, Deocaris, Custer C., Kaur, Kamaljit, Hasan, Kamrul, Yaguchi, Tomoko, Yamasaki, Kazuhiko, Sugihara, Takashi, Ishii, Tetsuro, Wadhwa, Renu, and Kaul, Sunil C.

Subjects

MOLECULAR chaperones, PROTEINS, GENE silencing, OSTEOSARCOMA, CANCER cells, TUMOR suppressor genes, CANCER treatment

Abstract

DNA demethylating agents are used to reverse epigenetic silencing of tumor suppressors in cancer therapeutics. Understanding of the molecular and cellular factors involved in DNA demethylation-induced gene desilencing and senescence is still limited. We have tested the involvement of two stress chaperones, Pex19p and mortalin, in 5-Aza-2′ deoxycytidine (5AZA-dC; DNA demethylating agent)-induced senescence. We found that the cells overexpressing these chaperones were highly sensitive to 5AZA-dC, and their partial silencing eliminated 5AZA-dC-induced senescence in human osteosarcoma cells. We demonstrate that these chaperones modulate the demethylation and chromatin remodeling-dependent (as accessed by p16INKaA expression) and remodeling-independent (such as activation of tumor suppressor p53 pathway) senescence response of cells. Furthermore, we found the direct interactions of 5AZA-dC with these chaperones that may alter their functions. We conclude that both mortalin and Pex19p are important mediators, prognostic indicators, and tailoring tools for 5AZA-dC-induced senescence in cancer cells. [ABSTRACT FROM AUTHOR]

Published

2007

7. Emerging technologies: trendy RNA tools for aging research.

Author

Deocaris, Custer C, Kaul, Sunil C, Taira, Kazunari, and Wadhwa, Renu

Abstract

Aging is an inevitable biological phenomenon. Attempts to understand its mechanisms and, consequently, to therapeutically decelerate or even reverse the process are limited by its daunting complexity. Rapid and robust functional genomic tools suited to a wide array of experimental model systems are needed to dissect the interplay of individual genes during aging. In this article, we review principles that transcend the view of RNA, from a molecule merely mediating the flow of genetic information, into a unique molecular tool. In the form of catalytic molecular scissors (ribozymes), antibody-like antagonists (aptamers) and gene silencers (interfering RNAs, RNAi) can be effectively used to dissect biofunctions conserved throughout the evolution. In this review, application of recent RNA tools in aging research is discussed. [ABSTRACT FROM AUTHOR]

Published

2004

8. Trendy RNA Tools for Aging Research.

Author

Deocaris, Custer C., Kaul, Sunil C., Taira, Kazunari, and Wadhwa, Renu

Subjects

*AGING, *RNA, *GENES, *GERONTOLOGY, *GENETICS

Abstract

Aging is an inevitable biological phenomenon. Attempts to understand its mechanisms and, consequently, to therapeutically decelerate or even reverse the process are limited by its daunting complexity. Rapid and robust functional genomic tools suited to a wide array of experimental model systems are needed to dissect the interplay of individual genes during aging. In this article, we review principles that transcend the view of RNA, from a molecule merely mediating the flow of genetic information, into a unique molecular tool. In the form of catalytic molecular scissors (ribozymes), antibody-like antagonists (aptamers) and gene silencers (interfering RNAs, RNAi) can be effectively used to dissect biofunctions conserved throughout the evolution. In this review, application of recent RNA tools in aging research is discussed. [ABSTRACT FROM AUTHOR]

Published

2004