Evaluation of metabolic status of cancer cells by histoenzymatic and immunohistochemical analysis
December 24, 2010
Evaluation of metabolic status of cancer cells by histoenzymatic and immunohistochemical analysis
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| Title: | Evaluation of metabolic status of cancer cells by histoenzymatic and immunohistochemical analysis |
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| Article_Title: | Evaluation of metabolic status of cancer cells by histoenzymatic and immunohistochemical analysis |
| Authors: | Annamaria Pallag1, Aurel Ardelean2 |
| Affiliation: | 1 Faculty of Medicine and Pharmacy, University of Oradea, Romania 2 ”Vasile Goldiş” Western University Arad, Romania |
| Abstract: | In the past few years the medical treatment of malignant diseases has steadily increased in scope and importance. Monitoring the effects of this treatment is very important both of study of the influence on the cell metabolism. Mitochondria are subcellular organelles, whose function is to produce ATP through the oxidative phosphorylation system. Alterations in respiratory activity appear to be a general feature of malignant cells. The aim of the present study is to analysis and evaluation of metabolic status of cancer cells by use histoenzymatic techniques to determine the activity of the ATPase, LDH, and immunohistochemical analysis of cytochrome c release, both in tissue samples were obtained before the antineoplastic treatment and after antineoplastic treatment. |
| Keywords: | cytochrome c, cancer cells, ATPase, LDH |
| References: | Amuthan, G., Biswas, G., Zhang, S.Y., Klein-Szanto, A., Vijayasarathy, C., Avadhani, N.G., Mitochondria to nucleus stress signaling induces phenotypic changes, tumor progression and cell invasion, European Molecular Biology Organization Journal, 20: 1910-1920, 2001. Carew, J.S., Huang, P., Mitochondrial defects in cancer. Molecular Cancer, 10, 1186/1476-4598-1-9, 2002. Copeland, W.C., Wachsman, J.T., Johnson, T.M., Penta, J.S., Mitochondrial DNA alterations in cancer, Cancer investigation Journal, 20: 557-569, 2002. Cotrutz, C-tin., Cotrutz, C., Kocsis, M., Ionescu, C.R., Manual de lucrări practice de biologie celulară, Ed. Tehnica, Chişinău, 35-59, 76-83, 94-109, 112-117, 121-126, 1994. Cruce, M., Stănoiu, B., Cruce, R., Ardelean, A., Pirici, D., Pisoschi, C., Căi şi reţele de semnalizare celulară. Colecţia Hipocrate, Aius Press, Craiova, pp. 108-112, 2004. Cucuianu, M., Crîsnic, I., Pleşca-Manea, L., Biochimie clinică – Fundamentare fiziopatologică, Ed. Dacia, Cluj-Napoca, 134-228, 1998. Czarnecka, A.M., Gammazza, A., Felice, V.D., Zummo, G., Cappello, F., Cancer as a „Mitochondriophathy” Journal of Cancer Molecules, 3(3): 79-95, 2007. Eguchi Y., Shimizu S., Tsujimoto Y., Intracellular ATP levels determine cell death fate by apoptosis or necrosis, Cancer Research, 57:1835-40, 1997. Kondoh H., The role of glycolysis in cellular immortalization, Cellular respiration and carcinogenesis, Humana Press, p 36-39, 2009. Koukourakis M.J., Giatromanolaki A., Sivridis E., Gatter K.C., Harris A.L., Pyruvate dehydrogenase and pyruvate dehydrogenase kinase expression in non-small cell lung cancer and tumor associated stroma, Neoplasia, 7:1-6, 2005. Manash, K.P., Rajan, K.T., Rajinder, A., Anup, K., Mitochondria – role in different diseases, potential for drug development. Crips, 7/4: 42-46, 2006. Mureşan, E., Bogdan, A.T., Gaboreanu, M., Baba, A.I., Tehnici de histochimie normală şi patologică, Ed. Ceres, Bucureşti, 5-74, 185-214, 317-319, 1976. Olinici, C.,D., Biologia celulară a cancerului, Editura Medicala, Bucuresti, p 297-299, 2010. Pelicano, H., Feng, L., Zhau, Y., Carew, J.S., Hileman E.O., Plunkett W., Keating M.J., Huang P., Inhibition of Mitochondrial Respiration Journal of Biological Chemistry., Vol. 278, 39, 37832-37839, 2003. Ristov, M., Cuezva, J.M., Oxidative phosphorilation and cancer. Cellular respiration and carcinogenesis, Humana Press, pp. 1-18, 2009. Ristov M., Oxidative metabolism in cancer growth, Current Opinion in Clinical Nutrition & Metabolic Care, vol 4, 339-345, 2006. Scatena, R., Bottoni, P., Giardina, B., Oxidative phosphorilation and cancer. Cellular respiration and dedifferentiation, Humana Press, pp. 73-75, 2009. Smith, C., Marks, A.D., Lieberman, M., Marks’ Basic Medical Biochemistry, A Clinical Approach Second Edition, Lippincott, Williams & Wilkins, 360-379, 382-398, 2008. Van Beek-Harmsen B.J., Van der Laarsen W.I., Immunohistochemical determination of cytosolic cytochrome c concentration in cardiomyocytes, Journal of Histochemistry, Cytochemistry, 2005, 53: 803-807. |
| Read_full_article: | pdf/20-2010/20-3-2010/SU20-3-10Pallag.pdf |
| Correspondence: | Annamaria Pallag, Faculty of Medicine and Pharmacy, University of Oradea,Oradea, P-ţa 1 Decembrie, nr. 10, jud. Bihor; e-mail: annamariapallag@gmail.com |
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Read full article |
| Article Title: | Evaluation of metabolic status of cancer cells by histoenzymatic and immunohistochemical analysis |
| Authors: | Annamaria Pallag1, Aurel Ardelean2 |
| Affiliation: | 1 Faculty of Medicine and Pharmacy, University of Oradea, Romania 2 ”Vasile Goldiş” Western University Arad, Romania |
| Abstract: | In the past few years the medical treatment of malignant diseases has steadily increased in scope and importance. Monitoring the effects of this treatment is very important both of study of the influence on the cell metabolism. Mitochondria are subcellular organelles, whose function is to produce ATP through the oxidative phosphorylation system. Alterations in respiratory activity appear to be a general feature of malignant cells. The aim of the present study is to analysis and evaluation of metabolic status of cancer cells by use histoenzymatic techniques to determine the activity of the ATPase, LDH, and immunohistochemical analysis of cytochrome c release, both in tissue samples were obtained before the antineoplastic treatment and after antineoplastic treatment. |
| Keywords: | cytochrome c, cancer cells, ATPase, LDH |
| References: | Amuthan, G., Biswas, G., Zhang, S.Y., Klein-Szanto, A., Vijayasarathy, C., Avadhani, N.G., Mitochondria to nucleus stress signaling induces phenotypic changes, tumor progression and cell invasion, European Molecular Biology Organization Journal, 20: 1910-1920, 2001. Carew, J.S., Huang, P., Mitochondrial defects in cancer. Molecular Cancer, 10, 1186/1476-4598-1-9, 2002. Copeland, W.C., Wachsman, J.T., Johnson, T.M., Penta, J.S., Mitochondrial DNA alterations in cancer, Cancer investigation Journal, 20: 557-569, 2002. Cotrutz, C-tin., Cotrutz, C., Kocsis, M., Ionescu, C.R., Manual de lucrări practice de biologie celulară, Ed. Tehnica, Chişinău, 35-59, 76-83, 94-109, 112-117, 121-126, 1994. Cruce, M., Stănoiu, B., Cruce, R., Ardelean, A., Pirici, D., Pisoschi, C., Căi şi reţele de semnalizare celulară. Colecţia Hipocrate, Aius Press, Craiova, pp. 108-112, 2004. Cucuianu, M., Crîsnic, I., Pleşca-Manea, L., Biochimie clinică – Fundamentare fiziopatologică, Ed. Dacia, Cluj-Napoca, 134-228, 1998. Czarnecka, A.M., Gammazza, A., Felice, V.D., Zummo, G., Cappello, F., Cancer as a „Mitochondriophathy” Journal of Cancer Molecules, 3(3): 79-95, 2007. Eguchi Y., Shimizu S., Tsujimoto Y., Intracellular ATP levels determine cell death fate by apoptosis or necrosis, Cancer Research, 57:1835-40, 1997. Kondoh H., The role of glycolysis in cellular immortalization, Cellular respiration and carcinogenesis, Humana Press, p 36-39, 2009. Koukourakis M.J., Giatromanolaki A., Sivridis E., Gatter K.C., Harris A.L., Pyruvate dehydrogenase and pyruvate dehydrogenase kinase expression in non-small cell lung cancer and tumor associated stroma, Neoplasia, 7:1-6, 2005. Manash, K.P., Rajan, K.T., Rajinder, A., Anup, K., Mitochondria – role in different diseases, potential for drug development. Crips, 7/4: 42-46, 2006. Mureşan, E., Bogdan, A.T., Gaboreanu, M., Baba, A.I., Tehnici de histochimie normală şi patologică, Ed. Ceres, Bucureşti, 5-74, 185-214, 317-319, 1976. Olinici, C.,D., Biologia celulară a cancerului, Editura Medicala, Bucuresti, p 297-299, 2010. Pelicano, H., Feng, L., Zhau, Y., Carew, J.S., Hileman E.O., Plunkett W., Keating M.J., Huang P., Inhibition of Mitochondrial Respiration Journal of Biological Chemistry., Vol. 278, 39, 37832-37839, 2003. Ristov, M., Cuezva, J.M., Oxidative phosphorilation and cancer. Cellular respiration and carcinogenesis, Humana Press, pp. 1-18, 2009. Ristov M., Oxidative metabolism in cancer growth, Current Opinion in Clinical Nutrition & Metabolic Care, vol 4, 339-345, 2006. Scatena, R., Bottoni, P., Giardina, B., Oxidative phosphorilation and cancer. Cellular respiration and dedifferentiation, Humana Press, pp. 73-75, 2009. Smith, C., Marks, A.D., Lieberman, M., Marks’ Basic Medical Biochemistry, A Clinical Approach Second Edition, Lippincott, Williams & Wilkins, 360-379, 382-398, 2008. Van Beek-Harmsen B.J., Van der Laarsen W.I., Immunohistochemical determination of cytosolic cytochrome c concentration in cardiomyocytes, Journal of Histochemistry, Cytochemistry, 2005, 53: 803-807. |
| *Correspondence: | Annamaria Pallag, Faculty of Medicine and Pharmacy, University of Oradea,Oradea, P-ţa 1 Decembrie, nr. 10, jud. Bihor; e-mail: annamariapallag@gmail.com |
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