Cancer-Preventive Peptide Lunasin from Solanum nigrum L. Inhibits Acetylation of Core Histones H3 and H4 and Phosphorylation of Retinoblastoma Protein (Rb)

Jeong, Jin Boo; Jeong, Hyung Jin; Park, Jae Ho; Lee, Sun Hee; Lee, Jeong Rak; Lee, Hee Kyeong; Chung, Gyu Young; Choi, Jeong Doo; Lumen, Ben O. de

doi:10.1021/jf072363p

Cited by 92 publications

(66 citation statements)

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“…However, natural agents have not been popularly accepted, primarily due to their poorly defined molecular mechanisms. One such little investigated agent is degalactotigonin (DGT), which is isolated from Solanum nigrum L. The extractions of Solanum nigrum L have anticancer properties in breast cancer, colon cancer, and prostate cancer while leaving normal cells unharmed (8)(9)(10)(11). Thus far, one study has shown growth-inhibitory effects of DGT on a cervical cell line (HeLa) and contraceptive potential but provided no detailed insights into the underlying molecular mechanisms (12).…”

Section: Introductionmentioning

confidence: 99%

Degalactotigonin, a Natural Compound from Solanum nigrum L., Inhibits Growth and Metastasis of Osteosarcoma through GSK3β Inactivation–Mediated Repression of the Hedgehog/Gli1 Pathway

Zhao

Jia

et al. 2018

Clinical Cancer Research

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Purpose: Agents extracted from natural sources with antitumor property have attracted considerable attention from researchers and clinicians because of their safety, efficacy, and immediate availability. Degalactotigonin (DGT), extracted from Solanum nigrum L., has anticancer properties without serious side effects. Here, we explored whether DGT can inhibit the growth and metastasis of osteosarcoma.Experimental Design: MTT, colony formation, and apoptosis assays were performed to analyze the effects of DGT on osteosarcoma cell viability in vitro. The migration and invasion abilities were measured using a Transwell assay. Animal models were used to assess the roles of DGT in both tumor growth and metastasis of osteosarcoma. Gli1 expression and function were measured in osteosarcoma cells and clinical samples. After DGT treatment, Gli1 activation and the phosphorylation status of multiple cellular kinases were measured with a luciferase reporter and phospho-kinase antibody array.Results: DGT inhibited proliferation, induced apoptosis, and suppressed migration and invasion in osteosarcoma cells. DGT, injected intraperitoneally after tumor inoculation, significantly decreased the volume of osteosarcoma xenografts and dramatically diminished the occurrence of osteosarcoma xenograft metastasis to the lungs. Mechanistically, DGT inhibited osteosarcoma growth and metastasis through repression of the Hedgehog/Gli1 pathway, which maintains malignant phenotypes and is involved in the prognosis of osteosarcoma patients. DGT decreased the activity of multiple intracellular kinases that affect the survival of osteosarcoma patients, including GSK3b. In addition, DGT represses the Hedgehog/Gli1 pathway mainly through GSK3b inactivation.Conclusions: Our studies provide evidence that DGT can suppress the growth and metastasis of human osteosarcoma through modulation of GSK3b inactivation-mediated repression of the Hedgehog/Gli1 pathway.

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Section: Introductionmentioning

confidence: 99%

Degalactotigonin, a Natural Compound from Solanum nigrum L., Inhibits Growth and Metastasis of Osteosarcoma through GSK3β Inactivation–Mediated Repression of the Hedgehog/Gli1 Pathway

Zhao

Jia

et al. 2018

Clinical Cancer Research

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“…Therefore, the decreased activity of histone acetyltransferases (HATs), including lysine acetyltransferase 2A/2B and p300, is consistent with the decreased incidence of cancer, including colorectal and breast cancer (47)(48)(49). In previous studies, lunasin was demonstrated to competitively inhibit HATs, thereby inhibiting acetylation and regulating the cell cycle (24,32). The underlying molecular mechanisms of the binding of lunasin to histones remain unclear; however, they may be associated with the helical structure formed by the amino acid residues at positions 23-31, and the specific spatial structure or orientation of lunasin (42).…”

Section: Molecular Mechanisms Of Lunasin In the Prevention And Treatmmentioning

confidence: 80%

“…Following acetylation of HATs, lunasin and HATs competitively deacetylate histones to terminate transcription, thus leading to apoptosis. Therefore, lunasin is involved in the destruction of acetylation-deacetylation kinetics of histones (32). Deacetylated histones are absent from wild-type cells, so lunasin was not able to disrupt the proliferation or cause the apoptosis of wild-type cells.…”

Section: Molecular Mechanisms Of Lunasin In the Prevention And Treatmmentioning

confidence: 99%

“…Following oral administration of lunasin, it is absorbed into the bloodstream and reaches target tissues or organs in an active and stable state (31). Animal studies using rats fed on a soybean diet rich in lunasin demonstrated that the marked stability of lunasin enables it to reach target tissues and organs following administration, thus serving an important role in the prevention of cancer (24,32). The bioactivity of lunasin has been investigated in humans, and results have demonstrated that 4.5% lunasin at full activity is able to enter the plasma of healthy volunteers in 30 min (33).…”

Section: Molecular Mechanisms and Advantages Of Lunasin In The Prevementioning

confidence: 99%

“…Deacetylated histones are absent from wild-type cells, so lunasin was not able to disrupt the proliferation or cause the apoptosis of wild-type cells. While monitoring the cell cycle process in the presence of lunasin, lunasin was able to be activated to selectively kill tumor cells following the transformation of the cells from wild-type cells to tumor cells, and it was demonstrated that lunasin exhibits a limited number of side effects compared with other drugs (32,53).…”

Section: Molecular Mechanisms Of Lunasin In the Prevention And Treatmmentioning

confidence: 99%

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Lunasin: A promising polypeptide for the prevention and treatment of cancer

et al. 2017

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Abstract. Strategies for the treatment of cancer remain unsatisfactory due to the poor understanding of the complicated underlying molecular mechanisms of carcinogenesis. A number of types of cancer exhibit a marked association with dietary habits and lifestyles. Therefore, the modulation of dietary habits or lifestyles may be an effective strategy for preventing the formation and progression of cancer. Proteins and polypeptides from soybean have been developed as healthcare products due to their marked activity in inhibiting the progression of cancer at various stages. Lunasin, containing 43 amino acid residues, is one such example of a soybean-derived polypeptide that has been demonstrated to exhibit marked anti-cancer activity. In the present review, studies of the underlying molecular mechanisms and potential advantages of lunasin in the prevention and treatment of cancer have been examined, to provide a theoretical reference for the development of natural product-based agents or healthcare products for the prevention and treatment of cancer. IntroductionCancer is well-known to be one of the leading causes of mortality worldwide (1). However, the therapy of various types of cancer remains unsatisfactory due to the poor understanding of the complicated underlying molecular mechanisms of carcinogenesis. A number of epidemiological studies have demonstrated that a number of types of cancer exhibit a marked association with dietary habits and lifestyles (2-4). A statistical study has demonstrated that ~3.07 million individuals in China were diagnosed with cancer in 2012, which accounts for 1/5 of the total number of patients with cancer worldwide (5). Furthermore, ~2.21 million patients succumbed to cancer in China, which is ~25% of the total mortality worldwide due to cancer (5). Epidemiological evidence has demonstrated that cancer in 35% of patients exhibits a marked association with lifestyle, particularly diet (2). Therefore, the adjustment of dietary habits and lifestyles may be an effective strategy to prevent carcinogenesis. Cancer cell-and tumor-bearing animal models have demonstrated that the consumption of foods containing natural compounds with anti-cancer activity is able to markedly reduce the risk of cancer, and increase the sensitivity of cancer cells to treatment (6). A number of phytochemicals, including resveratrol, quercetin and flavonoids, have been demonstrated to exhibit marked anti-cancer activity (7-9). Similarly, foodborne proteins and polypeptides have attracted attention due to their specific advantages as anti-cancer substances (10,11). Compared with certain small-molecule drugs, polypeptides exhibit characteristics of increased affinity, marked ability of specific targeting and decreased toxicity; furthermore, polypeptides exhibit increased permeability in tissues compared with protein-based drugs (12). Therefore, polypeptides have been recognized as potential natural anti-cancer substances for inhibiting the development and progression of cancer at different stages (13).Following ...

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Updating the research on the chemopreventive and therapeutic role of the peptide lunasin

et al. 2017

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Chronic diseases have become the medical challenge of the 21st century because of their high incidence and mortality rates. Modulation of diet and lifestyle habits is considered as the best strategy for the prevention of these disorders. Health promoting benefits beyond their nutritional effects have been described for multiple dietary compounds. Among these compounds, the peptide lunasin is considered as one of the most promising. Naturally present in soybean, lunasin has been extensively studied in the last two decades because of its potential against chronic diseases such as cancer, cardiovascular and immunological disorders. The purpose of this article is to summarise the evidence on the presence of lunasin in soybean and derived foods, and its bioavailability once it is orally ingested. The protective and therapeutic effects of this peptide against cancer, oxidative stress, inflammation, and high cholesterol levels as well as the molecular mechanisms of action involved in these effects are also described in this review. © 2017 Society of Chemical Industry.

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Cancer-Preventive Peptide Lunasin from Solanum nigrum L. Inhibits Acetylation of Core Histones H3 and H4 and Phosphorylation of Retinoblastoma Protein (Rb)

Cited by 92 publications

References 35 publications

Degalactotigonin, a Natural Compound from Solanum nigrum L., Inhibits Growth and Metastasis of Osteosarcoma through GSK3β Inactivation–Mediated Repression of the Hedgehog/Gli1 Pathway

Degalactotigonin, a Natural Compound from Solanum nigrum L., Inhibits Growth and Metastasis of Osteosarcoma through GSK3β Inactivation–Mediated Repression of the Hedgehog/Gli1 Pathway

Lunasin: A promising polypeptide for the prevention and treatment of cancer

Updating the research on the chemopreventive and therapeutic role of the peptide lunasin

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