Literature DB >> 29743856

Current results on the biological and pharmacological activities of Indole-3-carbinol.

Abstract

Entities: CellLine Chemical Disease Species

Year: 2018 PMID： 29743856 PMCID： PMC5938534 DOI： 10.17179/excli2017-1028

Source DB: PubMed Journal: EXCLI J ISSN： 1611-2156 Impact factor: 4.068

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Dear Editor, Indole-3-carbinol (I3C; C9H9NO) is a phytochemical that is derived from the breakdown of the glucosinolate, glucobrassicin. I3C is present at relatively high levels in most cruciferous vegetables such as broccoli, cabbage, cauliflower, brussels sprouts, collard greens, and kale (Fujioka et al., 2016[14]; Licznerska and Baer-Dubowska, 2016[22]). The enzyme, myrosinase (β-thioglucosidase), catalyzes the hydrolysis of glucosinolates in intact plant cells (Zhao et al., 2015[37]). After chopping or chewing of raw cruciferous vegetables, the plant cells are damaged and glucobrassicin is exposed to myrosinase. This catalyzes the conversion of glucobrassicin to a glucose molecule and an unstable aglycone, which is hydrolyzed to thiohydroximate-O-sulfonate (de Vos et al., 2008[9]). If the sulfate ion is released spontaneously, this may form another unstable intermediate, 3-indolylmethylisothiocyanate. This released compound readily converts to a thiocyanate ion and I3C (Kim et al., 2008[20]). I3C has recently become available as a nutritional supplement and it provides an attractive natural product for drug development in the pharmaceutical industry. It has been reported to show diverse promising biological properties, with anti-atherogenic, antioxidant, anti-carcinogenic, and anti-inflammatory activities (Fuentes et al., 2015[13]; Maruthanila et al., 2014[25]). I3C has attracted considerable attention in recent years within the pharmaceutical and functional food industries. Here, we summarize recent studies performed to evaluate the biological and pharmacological activities of I3C (Table 1(Tab. 1); References in Table 1: Mohammadi et al., 2017[27]; Ampofo et al., 2017[1]; Hammerschmidt-Kamper et al., 2017[16]; Safa et al., 2017[31]; Kabel et al., 2017[19]; Sherer et al., 2017[33]; Gehrcke et al., 2017[15]; Quirit et al., 2017[30]; Fletcher et al., 2017[12]; Julliard et al., 2017[18]; Kundu et al., 2017[21]; Wang et al., 2016[35]; Megna et al., 2016[26]; El-Naga and Mahran, 2016[10]; Enríquez et al., 2016[11]; Poindexter et al., 2016[29]; Song et al., 2015[34]; Lin et al., 2015[23]; Busbee et al., 2015[4]; Safa et al., 2015[32]; Wang et al., 2015[36]; Caruso et al., 2014[6]; Perez-Chacon et al., 2014[28]; Aronchik et al., 2014[2]; Chen et al., 2014[7]; Choi et al., 2014[8]; Mao et al., 2014[24]; Jayakumar et al., 2014[17]; Brandt et al., 2014[3]; Busbee et al., 2014[5]).

Table 1

Recent studies on the biological and pharmacological activities of Indole-3-carbinol

Acknowledgements

This research was supported by Golden Seed Project (213006051WTE11) funded by the Ministry of Agriculture, Food and Rural Affairs (MAFRA), Ministry of Oceans and Fisheries (MOF), Rural Development Administration (RDA) and Korea Forest Service (KFS), Republic of Korea.

Conflict of interest

The authors declare no conflict of interest.

36 in total

1. Inhibition of oncogenic BRAF activity by indole-3-carbinol disrupts microphthalmia-associated transcription factor expression and arrests melanoma cell proliferation.

Authors: Aishwarya Kundu; Jeanne G Quirit; Michelle G Khouri; Gary L Firestone
Journal: Mol Carcinog Date: 2016-02-15 Impact factor: 4.784

2. The promising effect of linagliptin and/or indole-3-carbinol on experimentally-induced polycystic ovarian syndrome.

Authors: Ahmed M Kabel; Aisha H Al-Shehri; Rehab A Al-Talhi; Maaly A Abd Elmaaboud
Journal: Chem Biol Interact Date: 2017-06-13 Impact factor: 5.192

3. Indole-3-carbinol suppresses NF-κB activity and stimulates the p53 pathway in pre-B acute lymphoblastic leukemia cells.

Authors: Majid Safa; Behnaz Tavasoli; Rima Manafi; Fatemeh Kiani; Meysam Kashiri; Saber Ebrahimi; Ahmad Kazemi
Journal: Tumour Biol Date: 2015-01-15

4. Cooperative antiproliferative signaling by aspirin and indole-3-carbinol targets microphthalmia-associated transcription factor gene expression and promoter activity in human melanoma cells.

Authors: Kevin M Poindexter; Susanne Matthew; Ida Aronchik; Gary L Firestone
Journal: Cell Biol Toxicol Date: 2016-04-07 Impact factor: 6.691

5. Combinations of indole-3-carbinol and silibinin suppress inflammation-driven mouse lung tumorigenesis by modulating critical cell cycle regulators.

Authors: Jung Min Song; Xuemin Qian; Kalkidan Molla; Fistum Teferi; Pramod Upadhyaya; Gerry O Sullivan; Xianghua Luo; Fekadu Kassie
Journal: Carcinogenesis Date: 2015-04-20 Impact factor: 4.944

6. Indole-3-carbinol as inhibitors of glucocorticoid-induced apoptosis in osteoblastic cells through blocking ROS-mediated Nrf2 pathway.

Authors: Hao Lin; Xiang Gao; Guanghua Chen; Jiecong Sun; Jiaqi Chu; Kaipeng Jing; Peng Li; Rong Zeng; Bo Wei
Journal: Biochem Biophys Res Commun Date: 2015-03-18 Impact factor: 3.575

7. Indole-3-carbinol is a potent inhibitor of ischemia-reperfusion-induced inflammation.

Authors: Emmanuel Ampofo; Nico Lachnitt; Jeannette Rudzitis-Auth; Beate M Schmitt; Michael D Menger; Matthias W Laschke
Journal: J Surg Res Date: 2017-03-31 Impact factor: 2.192

8. Enhanced photostability, radical scavenging and antitumor activity of indole-3-carbinol-loaded rose hip oil nanocapsules.

Authors: Mailine Gehrcke; Laura Minussi Giuliani; Luana Mota Ferreira; Allanna Valentini Barbieri; Marcel Henrique Marcondes Sari; Elita Ferreira da Silveira; Juliana Hofstatter Azambuja; Cristina Wayne Nogueira; Elizandra Braganhol; Letícia Cruz
Journal: Mater Sci Eng C Mater Biol Appl Date: 2016-12-14 Impact factor: 7.328

9. Identification of indole glucosinolate breakdown products with antifeedant effects on Myzus persicae (green peach aphid).

Authors: Jae Hak Kim; Byong Won Lee; Frank C Schroeder; Georg Jander
Journal: Plant J Date: 2008-03-12 Impact factor: 6.417

Review 10. Indole-3-carbinol induces tumor cell death: function follows form.

Authors: Bryant W Megna; Patrick R Carney; Manabu Nukaya; Pete Geiger; Gregory D Kennedy
Journal: J Surg Res Date: 2016-04-22 Impact factor: 2.192

1 in total

1. Red algae natural products for prevention of lipopolysaccharides (LPS)-induced liver and kidney inflammation and injuries.

Authors: Asmaa Nabil-Adam; Mohamed A Shreadah
Journal: Biosci Rep Date: 2021-01-29 Impact factor: 3.840

1 in total