Carotenoids: biochemistry, pharmacology and treatment

doi:10.1111/bph.13625

Review

. 2017 Jun;174(11):1290-1324.

doi: 10.1111/bph.13625. Epub 2016 Oct 29.

Carotenoids: biochemistry, pharmacology and treatment

Alireza Milani¹, Marzieh Basirnejad¹, Sepideh Shahbazi¹, Azam Bolhassani¹

Affiliations

PMID: 27638711
PMCID: PMC5429337
DOI: 10.1111/bph.13625

Free PMC article

Review

Carotenoids: biochemistry, pharmacology and treatment

Alireza Milani et al. Br J Pharmacol. 2017 Jun.

Free PMC article

. 2017 Jun;174(11):1290-1324.

doi: 10.1111/bph.13625. Epub 2016 Oct 29.

Authors

Alireza Milani¹, Marzieh Basirnejad¹, Sepideh Shahbazi¹, Azam Bolhassani¹

Affiliation

¹ Department of Hepatitis and AIDS, Pasteur Institute of Iran, Tehran, Iran.

PMID: 27638711
PMCID: PMC5429337
DOI: 10.1111/bph.13625

Abstract

Carotenoids and retinoids have several similar biological activities such as antioxidant properties, the inhibition of malignant tumour growth and the induction of apoptosis. Supplementation with carotenoids can affect cell growth and modulate gene expression and immune responses. Epidemiological studies have shown a correlation between a high carotenoid intake in the diet with a reduced risk of breast, cervical, ovarian, colorectal cancers, and cardiovascular and eye diseases. Cancer chemoprevention by dietary carotenoids involves several mechanisms, including effects on gap junctional intercellular communication, growth factor signalling, cell cycle progression, differentiation-related proteins, retinoid-like receptors, antioxidant response element, nuclear receptors, AP-1 transcriptional complex, the Wnt/β-catenin pathway and inflammatory cytokines. Moreover, carotenoids can stimulate the proliferation of B- and T-lymphocytes, the activity of macrophages and cytotoxic T-cells, effector T-cell function and the production of cytokines. Recently, the beneficial effects of carotenoid-rich vegetables and fruits in health and in decreasing the risk of certain diseases has been attributed to the major carotenoids, β-carotene, lycopene, lutein, zeaxanthin, crocin (/crocetin) and curcumin, due to their antioxidant effects. It is thought that carotenoids act in a time- and dose-dependent manner. In this review, we briefly describe the biological and immunological activities of the main carotenoids used for the treatment of various diseases and their possible mechanisms of action.

Linked articles: This article is part of a themed section on Principles of Pharmacological Research of Nutraceuticals. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v174.11/issuetoc.

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Figures

**Figure 1**
The structures of the major carotenoids.

**Figure 2**
Biological activities of the main carotenoids used in the treatment of various diseases: (A) general effects; (B) their molecular mechanisms.

See this image and copyright information in PMC

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References

1. Abdullaev FI (1994). Inhibitory effect of crocetin on intracellular nucleic acid and protein synthesis in malignant cells. Toxicol Lett 70: 243–251. - PubMed
1. Aggarwal BB, Shishodia S, Takada Y, Banerjee S, Newman RA, Bueso‐Ramos CE et al. (2005). Curcumin suppresses the paclitaxel‐induced NF‐ĸB pathway in breast cancer cells and inhibits lung metastasis of human breast cancer in nude mice. Clin Cancer Res 11: 7490–7498. - PubMed
1. Ahmad AS, Ansari MA, Ahmad M, Saleem S, Yousuf S, Hoda MN et al. (2005). Neuroprotection by crocetin in a hemi‐parkinsonian rat model. Pharmacol Biochem Behav 81: 805–813. - PubMed
1. Alexander SPH, Kelly E, Marrion N, Peters JA, Benson HE, Faccenda E et al. (2015a). The Concise Guide to PHARMACOLOGY 2015/16: Overview. Br J Pharmacol 172: 5729–5143. - PMC - PubMed
1. Alexander SPH, Cidlowski JA, Kelly E, Marrion N, Peters JA, Benson HE et al. (2015b). The Concise Guide to PHARMACOLOGY 2015/16: Nuclear hormone receptors. Br J Pharmacol 172: 5956–5978. - PMC - PubMed

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[1] Abdullaev FI (1994). Inhibitory effect of crocetin on intracellular nucleic acid and protein synthesis in malignant cells. Toxicol Lett 70: 243–251. - PubMed

[2] Abdullaev FI (1994). Inhibitory effect of crocetin on intracellular nucleic acid and protein synthesis in malignant cells. Toxicol Lett 70: 243–251. - PubMed

[3] Aggarwal BB, Shishodia S, Takada Y, Banerjee S, Newman RA, Bueso‐Ramos CE et al. (2005). Curcumin suppresses the paclitaxel‐induced NF‐ĸB pathway in breast cancer cells and inhibits lung metastasis of human breast cancer in nude mice. Clin Cancer Res 11: 7490–7498. - PubMed

[4] Aggarwal BB, Shishodia S, Takada Y, Banerjee S, Newman RA, Bueso‐Ramos CE et al. (2005). Curcumin suppresses the paclitaxel‐induced NF‐ĸB pathway in breast cancer cells and inhibits lung metastasis of human breast cancer in nude mice. Clin Cancer Res 11: 7490–7498. - PubMed

[5] Ahmad AS, Ansari MA, Ahmad M, Saleem S, Yousuf S, Hoda MN et al. (2005). Neuroprotection by crocetin in a hemi‐parkinsonian rat model. Pharmacol Biochem Behav 81: 805–813. - PubMed

[6] Ahmad AS, Ansari MA, Ahmad M, Saleem S, Yousuf S, Hoda MN et al. (2005). Neuroprotection by crocetin in a hemi‐parkinsonian rat model. Pharmacol Biochem Behav 81: 805–813. - PubMed

[7] Alexander SPH, Kelly E, Marrion N, Peters JA, Benson HE, Faccenda E et al. (2015a). The Concise Guide to PHARMACOLOGY 2015/16: Overview. Br J Pharmacol 172: 5729–5143. - PMC - PubMed

[8] Alexander SPH, Kelly E, Marrion N, Peters JA, Benson HE, Faccenda E et al. (2015a). The Concise Guide to PHARMACOLOGY 2015/16: Overview. Br J Pharmacol 172: 5729–5143. - PMC - PubMed

[9] Alexander SPH, Cidlowski JA, Kelly E, Marrion N, Peters JA, Benson HE et al. (2015b). The Concise Guide to PHARMACOLOGY 2015/16: Nuclear hormone receptors. Br J Pharmacol 172: 5956–5978. - PMC - PubMed

[10] Alexander SPH, Cidlowski JA, Kelly E, Marrion N, Peters JA, Benson HE et al. (2015b). The Concise Guide to PHARMACOLOGY 2015/16: Nuclear hormone receptors. Br J Pharmacol 172: 5956–5978. - PMC - PubMed

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Carotenoids: biochemistry, pharmacology and treatment

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