Beneficial Components of Colostrum for Cancer Patients: A Mini-review Focused on Oxidative Aspects and Properties of Colostrinin
Asian Oncology Research Journal,
Page 1-6
Abstract
The beneficial effect of maternal colostrum and milk on the newborn as well as on the nursing mother is well known. However, many other potentially preventive and therapeutic aspects associated with the use of components of these secretions are still partially known and have sparked some research, including in the context of cancer. A narrative mini-review to present potential beneficial effects of colostrum components for cancer patients, especially focusing on oxidative aspects and potentialities of colostrinin.
Keywords:
- Cancer
- colostrum
- nutraceuticals
- colostrinin
- oxidative metabolismo.
How to Cite
Carmo França-Botelho, A. do. (2019). Beneficial Components of Colostrum for Cancer Patients: A Mini-review Focused on Oxidative Aspects and Properties of Colostrinin. Asian Oncology Research Journal, 2(1), 1-6. Retrieved from https://journalaorj.com/index.php/AORJ/article/view/30096
References
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Available:https://www.who.int/health-topics/cancer#tab=tab_1
INCA. Cancer; 2019.
Available:https://www.inca.gov.br/numeros-de-cancer/incidencia
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Yu BP. Cellular defenses against damage from reactive oxygen species. Physiological Reviews. 1994;74:139- 162.
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Wang HG, Reed JC. Mechanisms of Bcl-2 protein function. Histol Histopathol. 1998; 13(2):521-530.
Youle RJ, Strasser A. The BCL-2 protein family: Opposing activities that mediate cell death. Nature Reviews Molecular Cell Biology. 2008;9(1):47-59.
Czabotar PE, Lessene G, Strasser A, Adams JM. Control of apoptosis by the BCL ‑ 2 protein family: Implications for physiology and therapy. Molecular Cell Biology. 2014;15(1):49-63.
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Patton S. Canfield LM, Huston GE, Ferris AM, Jensen RG. Carotenoids of human colostrum. Lipids. 1990;25:159-165.
Foley JÁ, Otterby DE. Availability, storage, treatment, composition, and feeding value of surplus colostrum: A review. Journal of Dairy Science. 1978;61:1033-1060.
Picone G, Zappaterra M, Luise D, Trimigno A, Capozzi F, Motta V, et al. Metabolomics characterization of colostrum in three sow breeds and its influences on piglets’ survival and litter growth rates. J Anim Sci Biotechnol. 2018;9:23.
Langer P. Differences in the composition of colostrum and milk in eutherians refl ect differences in immunoglobulin transfer. Journal of Mammalogy. 2009;90:332- 339.
Lonnerdal B. Bioactive proteins in breast milk. Journal of Paediatrics and Child Health. 2013;49:1-7.
He F, Tuomola E, Arvilommi H, Salminen S. Modulation of human humoral immune response through orally administered bovine colostrum. FEMS Immunololy & Medical Microbiology. 2001;31:93-96.
Pan Y, Lee A, Wan J, Coventry MJ, Michalski WP, Shiell B, Roginski H. Antiviral properties of milk proteins and peptides. Int Dairy J. 2006;16(11):1252-1261.
Wan ZX, Zhang F, Geng Q, Wang PY, Zhou H, Zhang YM. Effect of orally administered bovine colostrum on cytokine production in vivo and in vitro in immunosuppressed mice. Int. Dairy J. 2010;20:522-527.
Bagwe S, Tharappel LJ, Kaur G, Buttar HS. Bovine colostrum: An emerging nutraceutical. Journal of complementary & integrative medicine. 2015;12:175-185.
Kanwar JR, Kanwar RK, Xueying S, Punj V, Matta H, Morley SM, Puri M, Sehgal R. Curr. Protein Pept. Sci. 2009;10(4):308-338.
Menchetti L, Traina G, Tomasello G, Casagrande-Proietti P, Leonardi L, Barbato O, Brecchia G. Potential benefits of colostrum in gastrointestinal diseases. Frontiers in Bioscience. 2016;1:331-351.
Janusz M, Zabłocka A. Colostrinin: a proline-rich polypeptide complex of potential therapeutic interest. Cellular and molecular biology. 2013;59:4-11.
Zabłocka A, Janusz M. Effect of the proline-rich polypeptide complex/ colostrinin™ on the enzymatic antioxidant system. Archivum Immunologiae et Therapiae Experimentalis. 2012;60:383-390.
Douraghi-Zadeh D, Matharu B, Razvi A, Austen B. The protective effects of the nutraceutical, colostrinin, against Alzheimer's disease is mediated via prevention of apoptosis in human neurones induced by aggregated beta-amyloid. Journal of Nutrition Health and Aging. 2009;13:522-527.
Zabłocka A, Janusz M, Macała J, Lisowski J. A proline-rich polypeptide complex (PRP) isolated from ovine colostrum. Modulation of H2O2 and cytokine induction in human leukocytes. International Immunopharmacology. 2007;7:981-988.
Maher J. The physiological functions of proline-rich polypeptides. Dynamic Chiropractic. 2007;25:1-4.
Available:https://www.who.int/health-topics/cancer#tab=tab_1
INCA. Cancer; 2019.
Available:https://www.inca.gov.br/numeros-de-cancer/incidencia
Silva CT, Jasiulionis MG. Relação entre estresse oxidativo, alterações epigenéticas e câncer. Ciência e Cultura. 2014;66:38-42.
Jacob MJ. The integrated antioxidants systems. Nutrition Research. 1985;15: 755-765.
Yu BP. Cellular defenses against damage from reactive oxygen species. Physiological Reviews. 1994;74:139- 162.
Mendonça PS, Carioca AAF, Maia FMM. Interações entre estresse oxidativo, terapia utilizada e estadiamento em paciente com câncer colorretal. Revista Brasileira de Cancerologia. 2014;60:129-134.
Hanahan D, Weinberg RA. Hallmarks of cancer: The next generation. Cell. 2011; 144:646-674.
Oberley LW, Buettner GR. Role of superoxide dismutase in cancer: A review. Cancer Research. 1979;39:1141-1149.
Story M, Kodym R. Signal transduction during apoptosis; implications for cancer therapy. Frontiers in Bioscience. 1998; 23:365-375.
Villunger A, Strasser A. Does death receptor signaling play a role in tumorigenesis and cancer therapy? Oncology Research. 1998;10:541-550.
Ziegler U, Groscurth P. Morphological features of cell death. News in Physiological Sciences. 2004;19:124-128.
Tsujimoto Y, Cossman J, Jaffe E, Croce CM. Involvement of the BCL-2 gene in human folicular lymphoma. Science. 1985; 228:1440-1443.
Wang HG, Reed JC. Mechanisms of Bcl-2 protein function. Histol Histopathol. 1998; 13(2):521-530.
Youle RJ, Strasser A. The BCL-2 protein family: Opposing activities that mediate cell death. Nature Reviews Molecular Cell Biology. 2008;9(1):47-59.
Czabotar PE, Lessene G, Strasser A, Adams JM. Control of apoptosis by the BCL ‑ 2 protein family: Implications for physiology and therapy. Molecular Cell Biology. 2014;15(1):49-63.
Wong RSY. Apoptosis in cancer: from pathogenesis to treatment. Journal of Experimental & Clinical Cancer Research. 2011;30(1):87.
Grivicich I, Regner A, Rocha AB. Morte celular por apoptose. Revista Brasileira de Cancerologia. 2007;53:335-343.
Patton S. Canfield LM, Huston GE, Ferris AM, Jensen RG. Carotenoids of human colostrum. Lipids. 1990;25:159-165.
Foley JÁ, Otterby DE. Availability, storage, treatment, composition, and feeding value of surplus colostrum: A review. Journal of Dairy Science. 1978;61:1033-1060.
Picone G, Zappaterra M, Luise D, Trimigno A, Capozzi F, Motta V, et al. Metabolomics characterization of colostrum in three sow breeds and its influences on piglets’ survival and litter growth rates. J Anim Sci Biotechnol. 2018;9:23.
Langer P. Differences in the composition of colostrum and milk in eutherians refl ect differences in immunoglobulin transfer. Journal of Mammalogy. 2009;90:332- 339.
Lonnerdal B. Bioactive proteins in breast milk. Journal of Paediatrics and Child Health. 2013;49:1-7.
He F, Tuomola E, Arvilommi H, Salminen S. Modulation of human humoral immune response through orally administered bovine colostrum. FEMS Immunololy & Medical Microbiology. 2001;31:93-96.
Pan Y, Lee A, Wan J, Coventry MJ, Michalski WP, Shiell B, Roginski H. Antiviral properties of milk proteins and peptides. Int Dairy J. 2006;16(11):1252-1261.
Wan ZX, Zhang F, Geng Q, Wang PY, Zhou H, Zhang YM. Effect of orally administered bovine colostrum on cytokine production in vivo and in vitro in immunosuppressed mice. Int. Dairy J. 2010;20:522-527.
Bagwe S, Tharappel LJ, Kaur G, Buttar HS. Bovine colostrum: An emerging nutraceutical. Journal of complementary & integrative medicine. 2015;12:175-185.
Kanwar JR, Kanwar RK, Xueying S, Punj V, Matta H, Morley SM, Puri M, Sehgal R. Curr. Protein Pept. Sci. 2009;10(4):308-338.
Menchetti L, Traina G, Tomasello G, Casagrande-Proietti P, Leonardi L, Barbato O, Brecchia G. Potential benefits of colostrum in gastrointestinal diseases. Frontiers in Bioscience. 2016;1:331-351.
Janusz M, Zabłocka A. Colostrinin: a proline-rich polypeptide complex of potential therapeutic interest. Cellular and molecular biology. 2013;59:4-11.
Zabłocka A, Janusz M. Effect of the proline-rich polypeptide complex/ colostrinin™ on the enzymatic antioxidant system. Archivum Immunologiae et Therapiae Experimentalis. 2012;60:383-390.
Douraghi-Zadeh D, Matharu B, Razvi A, Austen B. The protective effects of the nutraceutical, colostrinin, against Alzheimer's disease is mediated via prevention of apoptosis in human neurones induced by aggregated beta-amyloid. Journal of Nutrition Health and Aging. 2009;13:522-527.
Zabłocka A, Janusz M, Macała J, Lisowski J. A proline-rich polypeptide complex (PRP) isolated from ovine colostrum. Modulation of H2O2 and cytokine induction in human leukocytes. International Immunopharmacology. 2007;7:981-988.
Maher J. The physiological functions of proline-rich polypeptides. Dynamic Chiropractic. 2007;25:1-4.
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