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4. Synthetic and Natural Inhibitors of Mortalin for Cancer Therapy.

Author

Kaushal, Shruti, Gupta, Samriddhi, Shefrin, Seyad, Vora, Dhvani Sandip, Kaul, Sunil C., Sundar, Durai, Wadhwa, Renu, and Dhanjal, Jaspreet Kaur

Subjects
TUMOR treatment, THERAPEUTIC use of antineoplastic agents, PROTEIN metabolism, CELL proliferation, APOPTOSIS, CELL motility, HEAT shock proteins, SYNTHETIC drugs, MOLECULAR chaperones, CARCINOGENESIS, CHEMICAL inhibitors
Abstract

Simple Summary: Mortalin is a heat shock protein 70 stress chaperone family member with variable subcellular localization in normal and cancer cells. It is an essential protein with multiple functions that support and promote proliferation, endorsed by its enriched expression in various cancers. Due to its prime involvement in stress adaptation and carcinogenesis, regulating Mortalin expression and function is a viable therapeutic avenue. Upregulation of stress chaperone Mortalin has been closely linked to the malignant transformation of cells, tumorigenesis, the progression of tumors to highly aggressive stages, metastasis, drug resistance, and relapse. Various in vitro and in vivo assays have provided evidence of the critical role of Mortalin upregulation in promoting cancer cell characteristics, including proliferation, migration, invasion, and the inhibition of apoptosis, a consistent feature of most cancers. Given its critical role in several steps in oncogenesis and multi-modes of action, Mortalin presents a promising target for cancer therapy. Consequently, Mortalin inhibitors are emerging as potential anti-cancer drugs. In this review, we discuss various inhibitors of Mortalin (peptides, small RNAs, natural and synthetic compounds, and antibodies), elucidating their anti-cancer potentials. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Molecular Insights into the Anticancer Activity of Withaferin-A: The Inhibition of Survivin Signaling.

Author

Wadhwa, Renu, Wang, Jia, Shefrin, Seyad, Zhang, Huayue, Sundar, Durai, and Kaul, Sunil C.

Subjects
COMPUTER-assisted molecular modeling, IN vitro studies, CERVIX uteri tumors, CELL cycle proteins, EPITHELIAL-mesenchymal transition, RESEARCH funding, ANTINEOPLASTIC agents, APOPTOSIS, CELLULAR signal transduction, CELL cycle, CELL motility, DESCRIPTIVE statistics, PLANT extracts, CELL lines, MESSENGER RNA, BIOINFORMATICS, CELL survival, DIMERIZATION, PHENOTYPES, CYCLIN-dependent kinases, PHARMACODYNAMICS
Abstract

Simple Summary: The inactivation of apoptotic signaling by inhibitors of apoptosis proteins (IAPs) is one of the important hallmarks of cancer cells. Survivin, a 16.5 kDa member of the IAP family, is commonly enriched in many cancers and is a potential therapeutic target. We investigated the Survivin-targeting potential of Withaferin-A (Wi-A) and Withanone (Wi-N), two major withanolides from Withania somnifera (Ashwagandha), using computational assays. The results were validated in various in vitro experimental assays using Wi-A-rich extracts from Ashwagandha leaves, suggesting their use as an important bioresource for cancer drug development. Survivin, a member of the IAP family, functions as a homodimer and inhibits caspases, the key enzymes involved in apoptosis. Several Survivin inhibitors, including YM-155, Debio1143, EM1421, LQZ-7I, and TL32711, have emerged as potential anticancer drugs awaiting validation in clinical trials. Due to the high cost and adverse side effects of synthetic drugs, natural compounds with similar activity have also been in demand. In this study, we conducted molecular docking assays to evaluate the ability of Wi-A and Wi-N to block Survivin dimerization. We found that Wi-A, but not Wi-N, can bind to and prevent the homodimerization of Survivin, similar to YM-155. Therefore, we prepared a Wi-A-rich extract from Ashwagandha leaves (Wi-AREAL). Experimental analyses of human cervical carcinoma cells (HeLa and ME-180) treated with Wi-AREAL (0.05–0.1%) included assessments of viability, apoptosis, cell cycle, migration, invasion, and the expression levels (mRNA and protein) of molecular markers associated with these phenotypes. We found that Wi-AREAL led to growth arrest mediated by the upregulation of p21WAF1 and the downregulation of several proteins (CDK1, Cyclin B, pRb) involved in cell cycle progression. Furthermore, Wi-AREAL treatment activated apoptosis signaling, as evidenced by reduced PARP-1 and Bcl-2 levels, increased procaspase-3, and elevated Cytochrome C. Additionally, treating cells with a nontoxic low concentration (0.01%) of Wi-AREAL inhibited migration and invasion, as well as EMT (epithelial–mesenchymal transition) signaling. By combining computational and experimental approaches, we demonstrate the potential of Wi-A and Wi-AREAL as natural inhibitors of Survivin, which may be helpful in cancer treatment. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Why Ashwagandha for Healthy Ageing? Evidence from Cultured Human Cells

Author

Wadhwa, Renu, Garg, Sukant, Khurana, Mallika, Kaul, Sunil C., Rattan, Suresh I.S., Series Editor, Barbagallo, Mario, Editorial Board Member, Çakatay, Ufuk, Editorial Board Member, Fraifeld, Vadim E., Editorial Board Member, Fülöp, Tamàs, Editorial Board Member, Gruber, Jan, Editorial Board Member, Jin, Kunlin, Editorial Board Member, Kaul, Sunil, Editorial Board Member, Kaur, Gurcharan, Editorial Board Member, Le Bourg, Eric, Editorial Board Member, Lopez Lluch, Guillermo, Editorial Board Member, Moskalev, Alexey, Editorial Board Member, Nehlin, Jan, Editorial Board Member, Pawelec, Graham, Editorial Board Member, Rizvi, Syed Ibrahim, Editorial Board Member, Sholl, Jonathan, Editorial Board Member, Stambler, Ilia, Editorial Board Member, Szczerbińska, Katarzyna, Editorial Board Member, Trougakos, Ioannis P., Editorial Board Member, Wadhwa, Renu, Editorial Board Member, Wnuk, Maciej, Editorial Board Member, and Rattan, Suresh I. S., editor

Published
2021
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8. Mixtures of Three Mortaparibs with Enhanced Anticancer, Anti-Migration, and Antistress Activities: Molecular Characterization in p53-Null Cancer Cells.

Author

Wadhwa, Renu, Yang, Shi, Meidinna, Hazna Noor, Sari, Anissa Nofita, Bhargava, Priyanshu, and Kaul, Sunil C.

Subjects
CANCER relapse, RESEARCH funding, ANTINEOPLASTIC agents, CELL proliferation, APOPTOSIS, CELL motility, OXIDATIVE stress, CELLULAR signal transduction, DESCRIPTIVE statistics, SMALL molecules, CELL lines, TUMOR suppressor genes, METASTASIS, TUMORS, PHENOTYPES
Abstract

Simple Summary: The Hsp70 family stress chaperone mortalin plays an important role in carcinogenesis and hence has emerged as a candidate target for cancer drug development. Mortaparibs (Mortaparib, MortaparibPlus, and MortaparibMild) are chemically synthesized small molecules isolated as inhibitors of mortalin–p53 interaction. They also downregulate mortalin and PARP1 expression and block cancer signaling in multiple ways. In this study, we demonstrate (i) the anticancer activity of MortaparibMild in p53-null cancer cells and (ii) combinations of three Mortaparibs for enhancing their potency for treating the hyper-proliferation, -migration, and -stress phenotypes of cancer cells. Mortalin, a member of the Hsp70 family of proteins, is commonly enriched in many types of cancers. It promotes carcinogenesis and metastasis in multiple ways of which the inactivation of the tumor suppressor activity of p53 has been firmly established. The downregulation of mortalin and/or disruption of mortalin–p53 interactions by small molecules has earlier been shown to activate p53 function yielding growth arrest/apoptosis in cancer cells. Mortaparibs (Mortaparib, MortaparibPlus, and MortaparibMild) are chemical inhibitors of mortalin isolated by cell-based two-way screening involving (i) a shift in the mortalin staining pattern from perinuclear (characteristics of cancer cells) to pancytoplasmic (characteristics of normal cells) and (ii) the nuclear enrichment of p53. They have similar structures and also cause the inhibition of PARP1 and hence were named Mortaparibs. In the present study, we report the anticancer and anti-metastasis activity of MortaparibMild (4-[(4-amino-5-thiophen-2-yl-1,2,4-triazol-3-yl)sulfanylmethyl]-N-(4-methoxyphenyl)-1,3-thiazol-2-amine) in p53-null cells. By extensive molecular analyses of cell proliferation, growth arrest, and apoptosis pathways, we demonstrate that although it causes relatively weaker cytotoxicity compared to Mortaparib and MortaparibPlus, its lower concentrations were equally potent to inhibit cell migration. We developed combinations (called MortaparibMix-AP, MortaparibMix-AM, and MortaparibMix-AS) consisting of different ratios of three Mortaparibs for specifically enhancing their anti-proliferation, anti-migration, and antistress activities, respectively. Based on the molecular analyses of control and treated cells, we suggest that the three Mortaparibs and their mixtures may be considered for further laboratory and clinical studies validating their use for the treatment of cancer as well as prevention of its relapse and metastasis. [ABSTRACT FROM AUTHOR]

Published
2024
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48. Cucurbitacin-B inhibits cancer cell migration by targeting mortalin and HDM2: computational and in vitro experimental evidence

Author

Huifu, He, Shefrin, Seyad, Yang, Shi, Zhang, Zhenya, Kaul, Sunil C., Sundar, Durai, and Wadhwa, Renu

Subjects
Structural Biology, General Medicine, Molecular Biology
Abstract

Cancer metastasis, a highly complex process wherein cancer cells move from the primary site to other sites in the body, is a major hurdle in its therapeutics. A large array of synthetic chemotherapeutic molecules used for the treatment of metastatic cancers, besides being extremely expensive and unaffordable, are known to cause severe adverse effects leading to poor quality of life (QOL) of the patients. In this premise, natural compounds (considered safe, easily available and economic) that possess the potential to inhibit migration of cancer cells are deemed useful and hence are on demand. Cucurbitacin-B (19-(10→9β)-abeo-10-lanost-5-ene triterpene, called Cuc-B) is a steroid mostly found in plants of Cucurbitaceae family. It has been shown to possess anticancer activity although the molecular mechanism remains poorly defined. We present evidence that Cuc-B has the ability to interact with mortalin and HDM2 proteins that are enriched in cancer cells, suppress wild type p53 function and promote cancer cell migration. Computational analyses showed that Cuc-B interacts with mortalin similar to MKT077 and Withanone, both have been shown to reactivate p53 function and inhibit cell migration. Furthermore, Cuc-B interacted with HDM2 similar to Y30, a well-known inhibitor of HDM2. Experimental cell and molecular analyses demonstrated the downregulation of several proteins, critically involved in cell migration in Cuc-B (low non-toxic doses)-treated cancer cells and exhibited inhibition of cell migration. The data suggested that Cuc-B is a potential natural drug that warrants further mechanistic and clinical studies for its use in the management of metastatic cancers. Communicated by Ramaswamy H. Sarma

Published
2023
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