Viswanath Das scite author profile

Carbonic anhydrase IX (CAIX) is a transmembrane enzyme that regulates pH in hypoxic tumors and promotes tumor cell survival. Its expression is associated with the occurrence of metastases and poor prognosis. Here, we present nine derivatives of the cobalt bis(dicarbollide)(1−) anion substituted at the boron or carbon sites by alkysulfamide group(s) as highly specific and selective inhibitors of CAIX. Interactions of these compounds with the active site of CAIX were explored on the atomic level using protein crystallography. Two selected derivatives display subnanomolar or picomolar inhibition constants and high selectivity for the tumor-specific CAIX over cytosolic isoform CAII. Both derivatives had a time-dependent effect on the growth of multicellular spheroids of HT-29 and HCT116 colorectal cancer cells, facilitated penetration and/or accumulation of doxorubicin into spheroids, and displayed low toxicity and showed promising pharmacokinetics and a significant inhibitory effect on tumor growth in syngenic breast 4T1 and colorectal HT-29 cancer xenotransplants.

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Nucleosidic DNA demethylating epigenetic drugs – A comprehensive review from discovery to clinic

Agrawal

Das

Vyas

et al. 2018

Pharmacology & Therapeutics

101

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DNA methylation plays a pivotal role in the etiology of cancer by mediating epigenetic silencing of cancer-related genes. Since the relationship between aberrant DNA methylation and cancer has been understood, there has been an explosion of research at developing anti-cancer therapies that work by inhibiting DNA methylation. From the discovery of first DNA hypomethylating drugs in the 1980s to recently discovered second generation pro-drugs, exceedingly large number of studies have been published that describe the DNA hypomethylation-based anti-neoplastic action of these drugs in various stages of the pre-clinical investigation and advanced stages of clinical development. This review is a comprehensive report of the literature published in past 40 years, on so far discovered nucleosidic DNA methylation inhibitors in chronological order. The review will provide a complete insight to the readers about the mechanisms of action, efficacy to demethylate and re-express various cancer-related genes, anti-tumor activity, cytotoxicity profile, stability, and bioavailability of these drugs. The review further presents the far known mechanisms of primary and secondary resistance to azanucleoside drugs. Finally, the review highlights the ubiquitous role of DNA hypomethylating epi-drugs as chemosensitizers and/or priming agents, and recapitulate the combinatorial cancer preventive effects of these drugs with other epigenetic agents, conventional chemo-drugs, or immunotherapies. This comprehensive review analyzes the beneficial characteristics and drawbacks of nucleosidic DNA methylation inhibitors, which will assist the pre-clinical and clinical researchers in the design of future experiments to improve the therapeutic efficacy of these drugs and circumvent the challenges in the path of successful epigenetic therapy.

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Sulfonamido carboranes as highly selective inhibitors of cancer-specific carbonic anhydrase IX

Dvořanová

Kugler

Holub

et al. 2020

European Journal of Medicinal Chemistry

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Microtubule stabilization by peloruside A and paclitaxel rescues degenerating neurons from okadaic acid‐induced tau phosphorylation

Das

Miller

2012

Eur J of Neuroscience

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Many cellular organelles must travel long distances in neurons to perform their specific functions, and this transport is highly dependent on the microtubule network within the axon. Hyperphosphorylation of microtubule-associated tau protein destabilizes microtubules and leads to neuronal cell death. This destabilization can be corrected in part by treatment with microtubule-stabilizing drugs such as paclitaxel and epothilone. The phosphatase inhibitor okadaic acid inhibits the outgrowth of neurites in neuronal cell cultures by hyperphosphorylating tau protein. In this study using neuronal cultures derived from the cerebral cortex of early postnatal Sprague-Dawley rats, we examined whether stabilization of microtubules by peloruside A, a microtubule-stabilizing agent that binds to a different site on β-tubulin from paclitaxel, could counter the deleterious effects of 8 h exposure to 15 nm okadaic acid. Peloruside A reversed the decrease in axonal outgrowth and branching seen in neuronal cultures treated with okadaic acid and rescued neurons from growth cone collapse. Although peloruside A had no effect on the hyperphosphorylation of tau caused by okadaic acid, it restored the levels of acetylated tubulin, a marker of stable microtubules, and reversed the okadaic acid-induced depression of growth-associated protein-43, an axonal growth regulator. Thus, microtubule-stabilizing drugs show promise as new therapeutic agents for treating damaged microtubule networks characteristic of neurodegenerative disease.

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Microtubule affinity-regulating kinases are potential druggable targets for Alzheimer’s disease

Annadurai

Agrawal

Džubák

et al. 2017

Cell. Mol. Life Sci.

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Alzheimer's disease (AD) is a progressive neurodegenerative disorder that affects normal functions of the brain. Currently, AD is one of the leading causes of death in developed countries and the only one of the top ten diseases without a means to prevent, cure, or significantly slow down its progression. Therefore, newer therapeutic concepts are urgently needed to improve survival and the quality of life of AD patients. Microtubule affinity-regulating kinases (MARKs) regulate tau-microtubule binding and play a crucial role in neurons. However, their role in hyperphosphorylation of tau makes them potential druggable target for AD therapy. Despite the relevance of MARKs in AD pathogenesis, only a few small molecules are known to have anti-MARK activity and not much has been done to progress these compounds into therapeutic candidates. But given the diverse role of MARKs, the specificity of novel inhibitors is imperative for their successful translation from bench to bedside. In this regard, a recent co-crystal structure of MARK4 in association with a pyrazolopyrimidine-based inhibitor offers a potential scaffold for the development of more specific MARK inhibitors. In this manuscript, we review the biological role of MARKs in health and disease, and draw attention to the largely unexplored area of MARK inhibitors for AD.

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Viswanath Das

Metallacarborane Sulfamides: Unconventional, Specific, and Highly Selective Inhibitors of Carbonic Anhydrase IX

Nucleosidic DNA demethylating epigenetic drugs – A comprehensive review from discovery to clinic

Sulfonamido carboranes as highly selective inhibitors of cancer-specific carbonic anhydrase IX

Microtubule stabilization by peloruside A and paclitaxel rescues degenerating neurons from okadaic acid‐induced tau phosphorylation

Microtubule affinity-regulating kinases are potential druggable targets for Alzheimer’s disease

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