Angela Casini scite author profile

Acidic extracellular pH (pHe) is a typical attribute of a tumor microenviroment, which has an impact on cancer development and treatment outcome. It was believed to result from an accumulation of lactic acid excessively produced by glycolysis. However, metabolic profiles of glycolysis-impaired tumors have revealed that CO 2 is a significant source of acidity, thereby indicating a contribution of carbonic anhydrase (CA). The tumor-associated CA IX isoform is the best candidate, because its extracellular enzyme domain is highly active, expression is induced by hypoxia and correlates with poor prognosis. This study provides the first evidence for the role of CA IX in the control of pHe. We show that CA IX can acidify the pH of the culture medium in hypoxia but not in normoxia. This acidification can be perturbed by deletion of the enzyme active site and inhibited by CA IX-selective sulfonamides, which bind only to hypoxic cells containing CA IX. Our findings suggest that hypoxia regulates both expression and activity of CA IX in order to enhance the extracellular acidification, which may have important implications for tumor progression.

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Connecting copper and cancer: from transition metal signalling to metalloplasia

Bush

et al. 2021

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Thioredoxin reductase: A target for gold compounds acting as potential anticancer drugs

Bindoli

Rigobello

Scutari

et al. 2009

Coordination Chemistry Reviews

538

451

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Gold compounds as anticancer agents: chemistry, cellular pharmacology, and preclinical studies

et al. 2009

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Gold compounds are a class of metallodrugs with great potential for cancer treatment. During the last two decades, a large variety of gold(I) and gold(III) compounds are reported to possess relevant antiproliferative properties in vitro against selected human tumor cell lines, qualifying themselves as excellent candidates for further pharmacological evaluation. The unique chemical properties of the gold center confer very interesting and innovative pharmacological profiles to gold-based metallodrugs. The primary goal of this review is to define the state of the art of preclinical studies on anticancer gold compounds, carried out either in vitro or in vivo. The available investigations of anticancer gold compounds are analyzed in detail, and particular attention is devoted to underlying molecular mechanisms. Notably, a few biophysical studies reveal that the interactions of cytotoxic gold compounds with DNA are generally far weaker than those of platinum drugs, implying the occurrence of a substantially different mode of action. A variety of alternative mechanisms were thus proposed, of which those involving either direct mitochondrial damage or proteasome inhibition or modulation of specific kinases are now highly credited. The overall perspectives on the development of gold compounds as effective anticancer drugs with an innovative mechanism of action are critically discussed on the basis of the available experimental evidence.

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Angela Casini

Carbonic anhydrase inhibitors

Hypoxia activates the capacity of tumor‐associated carbonic anhydrase IX to acidify extracellular pH

Connecting copper and cancer: from transition metal signalling to metalloplasia

Thioredoxin reductase: A target for gold compounds acting as potential anticancer drugs

Gold compounds as anticancer agents: chemistry, cellular pharmacology, and preclinical studies

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