Melatonin, a natural programmed cell death inducer in cancer.
Study Goal
The researchers aimed to review melatonin's proapoptotic effects in cancer cells and its potential clinical implications for cancer prevention and treatment.
Results Summary
Melatonin was found to inhibit tumor development and growth in various experimental models, promote apoptosis in tumor cells, and exhibit oncostatic properties. Depressed melatonin levels were associated with various tumor types.
Population
Experimental preclinical models (in vitro and in vivo) and some human cell lines.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
melatonin | decrease | tumor initiation, promotion or progression | - | - | restrained | #1 |
melatonin | decrease | nocturnal melatonin concentrations or nocturnal excretion of the main melatonin metabolite, 6-sulfatoxymelatonin | individuals with various tumor types | - | depressed | #2 |
melatonin | decrease | development and/or growth of various experimental animal tumors and some human cell lines | experimental animal tumors and some human cell lines in vitro | - | inhibit | #3 |
melatonin | increase | apoptosis | most tumor cells | - | promotes | #4 |
melatonin | decrease | apoptotic processes | normal cells | - | inhibition of | #5 |
Melatonin, an indolamine derived from the amino-acid tryptophan, participates in diverse physiological functions and has great functional versatility related to the regulation of circadian rhythms and seasonal behaviour, sexual development, retinal physiology, tumour inhibition, as an antioxidant, immunomodulatory and anti-aging properties. In relation to its oncostatic properties, there is evidence that tumor initiation, promotion or progression may be restrained by the night-time physiological surge of melatonin in the blood or extracellular fluid. In addition, depressed nocturnal melatonin concentrations or nocturnal excretion of the main melatonin metabolite, 6-sulfatoxymelatonin, were found in individuals with various tumor types. In the majority of studies, melatonin was shown to inhibit development and/or growth of various experimental animal tumors and some human cell lines in vitro. Many tumors do not respond to drug treatment due to their resistance to undergo apoptosis thereby contributing to the development of cancer. Thus, given the importance of the apoptotic program in cancer treatment, the role of melatonin in influencing apoptosis in tumor cells attracted attention because it seems that it actually promotes apoptosis in most tumor cells, in contrast to the obvious inhibition of apoptotic processes in normal cells. Thus, this paper is also intended to provide to the reader an up-date of all the researches that have been carried out to date, which investigate the proapoptotic effects of melatonin in experimental preclinical models of cancer (in vitro and in vivo) and the underlying proposed action mechanism of this effects. If melatonin uniformly induces apoptosis in cancer cells, the findings could have important clinical implications to improve the quality of live while preventing the appearance of cancer.