LEVELS OF CATHEPSIN-D AND NESTIN IN BREAST CANCER PATIENTS

Authors

  • Khalid Bahram Arif Department of Pathology, College of Medicine, University of Kirkuk, Kirkuk, Iraq Author

DOI:

https://doi.org/10.53555/jp4agr96

Keywords:

Tumor marker, Early and advanced stages, ELISA, Age, Kirkuk Oncology Center, Iraq

Abstract

Background: Breast cancer is the second most frequently cause of cancer deaths among women, therefore, new screening modalities could provide an extraordinary progress in understanding the mechanism of disease. In last decade, the role of Cathepsin-D (Cath-D) and Nestin which recently received attention as tumor markers, are remain unclear.

Aim: Measurement the levels of Cath-D and Nestin in breast cancer patients (BCPs) and estimating an association of each marker to stage of disease, early and advanced, and to age of study patients.

Materials and methods: An overall 48 adult women who attended to the Kirkuk Oncology Center (Kirkuk province, Iraq) and diagnosed clinically as BCPs; 24 at early stage and 24 at advanced stage, were selected to the present study that carried out from December (2022) to June (2023). The obtained sera were tested by specific ELISA kits.

Results: The quantitative findings of ELISA showed that the values of Cath-D and Nestin in BCPs were 283.997 18.12 pg/ml and 66.258  2.559 pg/ml, respectively. Moreover, significant higher values of Cath-D and Nestin were detected in advanced stage (395.683 14.737 pg/ml and 78.581 pg/ml, respectively) when compared to those of early stage (172.31 6.33 pg/ml and 53.934 2.36 pg/ml, respectively). According to age of study patients, insignificant variation (P 0.0) was seen in values of 40 and 41 years old for both Cath-D (305.319  31.55 pg/m and 270.027  21.81 pg/ml, respectively) and Nestin (67.357 2.81 and 64.532 3.85 pg/ml, respectively).

Conclusion: This represents the first Iraqi study determined Cath-D and Nestin in BCPs. This study demonstrates that these markers were provided additional information about the level of cancer activity in patients at early and advanced stages of disease.

References

. Ahmed, S. A., and Hidayat, H. J. (2020). Structural chromosomal aberrations as potential risk markers in incident of female BCPs in Iraq. Annals of Tropical Medicine and Public Health, 23, 23-1014.

. AL-Shaeli, S. J., Ethaeb, A. M., and Gharban, H. A. (2022). Determine the glucose regulatory role of decaffeinated Green Tea extract in reduces the metastasis and cell viability of MCF7 cell line. In AIP Conference Proceedings, 2394 (1), 1-8.ss

. Alwan, N. A., Al-Diwan, J. K., Wafa'M, A. A., and Eliessa, R. A. (2012). Knowledge, attitude and practice towards breast cancer and breast self examination in Kirkuk University, Iraq. Asian Pacific Journal of Reproduction, 1(4), 308-311.

. Alwan, N. A., Mualla, F. H., Al Naqash, M., Kathum, S., Tawfiq, F. N., and Nadhir, S. (2017). Clinical and Pathological Characteristics of Triple Positive Breast Cancer among Iraqi Patients. The Gulf journal of oncology, 1(25), 51-60.

. Bisoyi, P. (2022). Malignant tumors–as cancer. In Understanding Cancer. Academic Press. Pp: 21-36.

. Capony, F., Rougeot, C., Montcourrier, P., Cavailles, V., Salazar, G., and Rochefort, H. (1989). Increased secretion, altered processing, and glycosylation of pro-Cath-D in human mammary cancer cells. Cancer research, 49(14), 3904-3909.

. De Brot, M., Koslow Mautner, S., Muhsen, S., Andrade, V. P., Mamtani, A., Murray, M., and King, T. A. (2017). Pleomorphic lobular carcinoma in situ of the breast: a single institution experience with clinical follow-up and centralized pathology review. Breast cancer research and treatment, 165, 411-420.

. Del Piccolo, N., Shirure, V. S., Bi, Y., Goedegebuure, S. P., Gholami, S., Hughes, C. C., and George, S. C. (2021). Tumor-on-chip modeling of organ-specific cancer and metastasis. Advanced Drug Delivery Reviews, 175, 113798.

. Dian, D., Heublein, S., Wiest, I., Barthell, L., Friese, K., and Jeschke, U. (2014). Significance of the tumor protease Cath-D for the biology of breast cancer.

. Gao, N., Xu, H., Liu, C., Xu, H., Chen, G., Wang, X., and Wang, Y. (2014). Nestin: predicting specific survival factors for breast cancer. Tumor Biology, 35, 1751-1755.

. Golubnitschaja, O., Debald, M., Yeghiazaryan, K., Kuhn, W., Pešta, M., Costigliola, V., and Grech, G. (2016). Breast cancer epidemic in the early twenty-first century: evaluation of risk factors, cumulative questionnaires and recommendations for preventive measures. Tumor Biology, 37, 12941-12957.

. Hao, Y., Ren, G., Yang, W., Zheng, W., Wu, Y., Li, W., and Guo, X. (2020). Combination diagnosis with elastography strain ratio and molecular markers effectively improves the diagnosis rate of small breast cancer and lymph node metastasis. Quantitative Imaging in Medicine and Surgery, 10(3), 678.

. He, Z., Xu, Q., Newland, B., Foley, R., Lara-Sáez, I., Curtin, J. F., and Wang, W. (2021). Reactive oxygen species (ROS): utilizing injectable antioxidative hydrogels and ROS-producing therapies to manage the double-edged sword. Journal of Materials Chemistry B, 9(32), 6326-6346.

. Hussain, A. M., Ali, A. H., and Mohammed, H.L. (2022). Correlation between Serum and Tissue Markers in Breast Cancer Iraqi Patients. Baghdad Science Journal, 19(3), 0501-0501.

. Ibrahem, S. Q., Ahmed, H. Q., and Amin, K. M. (2021a). Genetic variations in cytochrome P450 1A1 and 1B1 genes in a cohort of patients from Iraq diagnosed with breast cancer. Breast Cancer: Basic and Clinical Research, 15, 1-11.

. Ibrahem, S. Q., Al-Dalawi, Z. T., and Bahaaldin, A. S. (2021b). Sequence Polymorphism in Xenobiotic Metabolising Genes in Iraqi Colorectal Cancer Patients. Asian Pacific journal of cancer prevention: APJCP, 22(4), 1203-1210.

. Ikhuoria, E.B., and Bach, C. (2018). Introduction to breast carcinogenesis–symptoms, risks factors, treatment and management. European Journal of Engineering and Technology Research, 3(7), 58-66.

. Jiang, H., Dong, Z., Xia, X., and Li, X. (2023). Cathepsins in oral diseases: mechanisms and therapeutic implications. Frontiers in Immunology, 14, 1203071.

. Kabalak, P. A., and Yılmaz, Ü. (2023). Clinical Presentation of Lung Cancer. In Airway diseases. Cham: Springer International Publishing. Pp: 1-19.

. Kang, J., Yu, Y., Jeong, S., Lee, H., Heo, H. J., Park, J. J., and Kim, Y. H. (2020). Prognostic role of high Cath-D expression in breast cancer: a systematic review and meta-analysis. Therapeutic advances in medical oncology, 12, 1758835920927838.

. Karamanos, N. K., Theocharis, A. D., Piperigkou, Z., Manou, D., Passi, A., Skandalis, S. S., and Onisto, M. (2021). A guide to the composition and functions of the extracellular matrix. The FEBS journal, 288(24), 68506912.

. Khadem, Z., AL-Shammaree, S., and Abdulretha, M. (2022). Assessment of hypoxemia status by measuring serum level of hypoxia inducible factor 1 alpha in relation to tumor suppression protein p53, estradiol and tumor proliferation markers of breast cancer in Thi-Qar province. Iraq', Eurasian Chemical Communications, 4, 625.

. Khalaf, H., Mohammed, A., Shukur, S., Alhalabi, N., Almothafar, B., Hassan, M., and Abu, A. (2022). Breast cancer: age incidence, hormone receptor status and family history in Najaf, Iraq. Journal of Medicine and Life, 15(10), 1318.

. Kos, J., Mitrović, A., Perišić Nanut, M., and Pišlar, A. (2022). Lysosomal peptidases—intriguing roles in cancer progression and neurodegeneration. FEBS Open bio, 12(4), 708-738.

. Li, H., Cherukuri, P., Li, N., Cowling, V., Spinella, M., Cole, M., and DiRenzo, J. (2007). Nestin is expressed in the basal/myoepithelial layer of the mammary gland and is a selective marker of basal epithelial breast tumors. Cancer research, 67(2), 501-510.

. Liu, C., Chen, B., Zhu, J., Zhang, R., Yao, F., Jin, F., and Lu, P. (2010). Clinical implications for nestin protein expression in breast cancer. Cancer science, 101(3), 815-819.

. Luo, J., Xiao, J., Yang, Y., Chen, G., Hu, D., and Zeng, J. (2023). Strategies for five tumour markers in the screening and diagnosis of female breast cancer. Frontiers in Oncology, 12, 1055855.

. Mahmoud, M. M. (2014). Breast cancer in Kirkuk city, Hormone receptors status (estrogen and progesterone) and Her-2/neu and their correlation with other pathologic prognostic variables. Diyala Journal of Medicine, 6(1), 1-14.

. Malik, R., Saqib, M., and Talat, A. (2016). Role of Cath-D in Monitoring Breast Cancer Treatment Using Doxorubicin in Combinations with Cyclophosphamide and 5-Fluorouracil. Pakistan Journal of Medical and Health Sciences, 10(2), 360-363.

. Milosevic, M., Jankovic, D., Milenkovic, A., and Stojanov, D. (2018). Early diagnosis and detection of breast cancer. Technology and Health Care, 26(4), 729-759.

. Natal, R. D. A., Paiva, G. R., Pelegati, V. B., Marenco, L., Alvarenga, C. A., Vargas, R. F., and Vassallo, J. (2019). Exploring collagen parameters in pure special types of invasive breast cancer. Scientific reports, 9(1), 7715.

. Nihad, A. (2018). Early Detection of Breast Cancer in Women Exposed to Environmental Estroge. Journal of Environmental Science, 41(1), 85-102.

. Nowak, A., Grzegrzolka, J., Paprocka, M., Piotrowska, A., Rys, J., Matkowski, R., and Dziegiel, P. (2017). Nestinpositive microvessel density is an independent prognostic factor in breast cancer. International Journal of Oncology, 51(2), 668-676.

. Nowak, A., and Dziegiel, P. (2018). Implications of nestin in breast cancer pathogenesis. International journal of oncology, 53(2), 477-487.

. Nsaif, G.S., Abdallah, A.H., Ahmed, N.S., and Alfatlawi, W.R. (2018). Evaluation of estridiol and some antioxidant in breast cancer iraqi women. Al-Nahrain Journal of Science, 21(1), 35-40.

. Onkar, S. S., Carleton, N. M., Lucas, P. C., Bruno, T. C., Lee, A. V., Vignali, D. A., and Oesterreich, S. (2023). The great immune escape: understanding the divergent immune response in breast cancer subtypes. Cancer discovery, 13(1), 23-40.

. Ouyang, J., Xie, A., Zhou, J., Liu, R., Wang, L., Liu, H., and Tao, W. (2022). Minimally invasive nanomedicine:

nanotechnology in photo-/ultrasound-/radiation-/magnetism-mediated therapy and imaging. Chemical Society Reviews, 51(12), 4996-5041.

. Parry, S., Savage, K., Marchio, C., and Reis-Filho, J. S. (2008). Nestin is expressed in basal-like and triple negative breast cancers. Journal of clinical pathology, 61(9), 1045-1050.

. Rajguru, J. P., Mouneshkumar, C. D., Radhakrishnan, I. C., Negi, B. S., Maya, D., Hajibabaei, S., and Rana, V. (2020). Tumor markers in oral cancer: A review. Journal of Family Medicine and Primary Care, 9(2), 492.

. Rasheed, N.W. (2023). Circulating microRNA-92a as biomarkers for primary woman breast cancer Iraq population. Journal of Population Therapeutics and Clinical Pharmacology, 30(1), 344-354.

. Rochefort, H., Capony, F., Garcia, M., Cavaillès, V., Freiss, G., Chambon, M., and Vignon, F. (1987). Estrogen‐induced lysosomal proteases secreted by breast cancer cells: A role in carcinogenesis?. Journal of cellular biochemistry, 35(1), 17-29.

. Rochefort, H. (1990). Cath-D in breast cancer. Breast cancer research and treatment, 16, 3-13.

. Rochefort, H. (1992). Cath-D in breast cancer: a tissue marker associated with metastasis. European journal of cancer, 28(11), 1780-1783.

. Sannachi, L., Tadayyon, H., Sadeghi-Naini, A., Tran, W., Gandhi, S., Wright, F., and Czarnota, G. (2015). Noninvasive evaluation of breast cancer response to chemotherapy using quantitative ultrasonic backscatter parameters. Medical image analysis, 20(1), 224-236.

. Schwartz-Roberts, J. L., Shajahan, A. N., Cook, K. L., Wärri, A., Abu-Asab, M., and Clarke, R. (2013). GX15-070 (Obatoclax) Induces Apoptosis and Inhibits Cath-D-and L–Mediated Autophagosomal Lysis in AntiestrogenResistant Breast Cancer Cells. Molecular cancer therapeutics, 12(4), 448-459.

. Seller, R. H., and Symons, A. B. (2011). Differential Diagnosis of Common Complaints E-Book. Elsevier Health Sciences.

. Sharma, G. N., Dave, R., Sanadya, J., Sharma, P., and Sharma, K. (2010). Various types and management of breast cancer: an overview. Journal of advanced pharmaceutical technology and research, 1(2), 109.

. Shiovitz, S., and Korde, L. A. (2015). Genetics of breast cancer: a topic in evolution. Annals of Oncology, 26(7), 1291-1299.

. Sun, T. A. O., Jiang, D., Zhang, L., Su, Q., Mao, W., and Jiang, C. U. I. (2016). Expression profile of cathepsins indicates the potential of cathepsins B and D as prognostic factors in BCPs. Oncology letters, 11(1), 575-583.

. Sun, Y. S., Zhao, Z., Yang, Z. N., Xu, F., Lu, H. J., Zhu, Z. Y., and Zhu, H. P. (2017). Risk factors and preventions of breast cancer. International journal of biological sciences, 13(11), 1387.

. Teranishi, N., Naito, Z., Ishiwata, T., Tanaka, N., Furukawa, K., Seya, T., and Tajiri, T. (2007). Identification of neovasculature using nestin in colorectal cancer. International journal of oncology, 30(3), 593-603.

. Thota, V., Nandigam, T., and Ampolu, K. (2020). A Review Article on Breast Cancer. World Journal of Pharmaceutical Research, 10 (1), 585-594.

. Trayes, K. P., and Cokenakes, S. E. (2021). Breast cancer treatment. American family physician, 104(2), 171-178.

. Tsutsumi, Y. (2012). Apocrine carcinoma as triple-negative breast cancer: novel definition of apocrine-type carcinoma as estrogen/progesterone receptor-negative and androgen receptor-positive invasive ductal carcinoma. Japanese journal of clinical oncology, 42(5), 375-386.

. Wilson, M. J., Whitaker, J. N., and Sinha, A. A. (1991). Immunocytochemical localization of Cath-D in rat ventral prostate: Evidence for castration‐induced expression of Cath-D in basal cells. The Anatomical Record, 229(3), 321333.

. Zaki, S. M., Hasan, F. F., Saydoka, K. M., and Amin, N. A. (2013). The association and relation of ABO blood group with the breast cancer in Kirkuk governorate. DJM, 5(1), 108-13.

. Zghair, A. N., Sinha, D. K., Kassim, A., Alfaham, M., and Sharma, A. K. (2016). Differential gene expression of BRCA1, ERBB2 and TP53 biomarkers between human breast tissue and peripheral blood samples of BCPs. AntiCancer Agents in Medicinal Chemistry, 16, 1-15.

. Zhang, X., Xing, C., Guan, W., Chen, L., Guo, K., Yu, A., and Xie, K. (2020). Clinicopathological and prognostic significance of nestin expression in patients with breast cancer: a systematic review and meta-analysis. Cancer cell international, 20, 1-17.

. Zhao, Z., Lu, P., Zhang, H., Xu, H., Gao, N., Li, M., and Liu, C. (2014). Nestin positively regulates the Wnt/βcatenin pathway and the proliferation, survival and invasiveness of breast cancer stem cells. Breast Cancer Research, 16, 1-12.

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Published

2023-10-13

How to Cite

Arif, K. B. (2023). LEVELS OF CATHEPSIN-D AND NESTIN IN BREAST CANCER PATIENTS. Journal of Advanced Research in Medical and Health Science (ISSN 2208-2425), 9(10), 35-41. https://doi.org/10.53555/jp4agr96

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