Time to Use a Dose of Chloroquine As an Adjuvant to Anti-cancer Chemotherapies

Overview

Journal Eur J Pharmacol

Specialty Pharmacology

Date 2015 Dec 22

PMID 26687632

Citations 60

Authors

Steve Pascolo

Affiliations

Soon will be listed here.

Abstract

Chloroquine, a drug used for over 80 years to treat and prevent malaria and, more recently, to treat autoimmune diseases, is very safe but has a plethora of dose-dependent effects. By increasing pH in acidic compartments it inhibits for example lysosomal enzymes. In the context of cancer, Chloroquine was found to have direct effects on different types of malignancies that could potentiate chemotherapies. For example, the anti-malaria drug may inhibit both the multidrug-resistance pump and autophagy (mechanisms that tumor cells may use to resist chemotherapies), intercalate in DNA and enhance the penetration of chemotherapeutic drugs in cells or solid cancer tissues. However, these activities were mostly demonstrated at high doses of Chloroquine (higher than 10mg/kg or 10mg/l i.e. ca. 31μM). Nevertheless, it was reported that daily uptake of clinically acceptable doses (less than 10mg/kg) of Chloroquine in addition to chemo-radio-therapy increases the survival of glioblastoma patients (Sotelo et al., 2006; Briceno et al., 2007). However, the optimal dose and schedule of this multi-active drug with respect to chemotherapy has never been experimentally determined. The present article reviews the several known direct and indirect effects of different doses of Chloroquine on cancer and how those effects may indicate that a fine tuning of the dose/schedule of Chloroquine administration versus chemotherapy may be critical to obtain an adjuvant effect of Chloroquine in anti-cancer treatments. We anticipate that the appropriate (time and dose) addition of Chloroquine to the standard of care may greatly and safely potentiate current anti-cancer treatments.

Citing Articles

The Combination of Tumor-targeting A1-R Plus the Autophagy-inhibitor Chloroquine Synergistically Eradicates HT1080 Fibrosarcoma Cells and .

Morinaga S, Zhao M, Mizuta K, Kang B, Bouvet M, Yamamoto N In Vivo. 2024; 39(1):102-109.

PMID: 39740880 PMC: 11705149. DOI: 10.21873/invivo.13807.

Tumor-associated macrophages affect the treatment of lung cancer.

Yu Z, Zou J, Xu F Heliyon. 2024; 10(7):e29332.

PMID: 38623256 PMC: 11016713. DOI: 10.1016/j.heliyon.2024.e29332.

Emerging Role of Autophagy in Governing Cellular Dormancy, Metabolic Functions, and Therapeutic Responses of Cancer Stem Cells.

Tiwari M, Srivastava P, Abbas S, Jegatheesan J, Ranjan A, Sharma S Cells. 2024; 13(5.

PMID: 38474411 PMC: 10930960. DOI: 10.3390/cells13050447.

Concurrent Activation of Both Survival-Promoting and Death-Inducing Signaling by Chloroquine in Glioblastoma Stem Cells: Implications for Potential Risks and Benefits of Using Chloroquine as Radiosensitizer.

Muller A, Weyerhauser P, Berte N, Jonin F, Lyubarskyy B, Sprang B Cells. 2023; 12(9).

PMID: 37174691 PMC: 10177603. DOI: 10.3390/cells12091290.

Autophagy/Mitophagy Regulated by Ubiquitination: A Promising Pathway in Cancer Therapeutics.

Jee S, Cheong H Cancers (Basel). 2023; 15(4).

PMID: 36831455 PMC: 9954143. DOI: 10.3390/cancers15041112.