Involvement of Regucalcin in Human Carcinogenesis Prevention

Regucalcin was discovered in 1978 as a novel calcium-binding protein that suppresses 1-6 calcium signaling in various types of cells and tissues. The regucalcin gene (gene symbol; 7,8 rgn) is located on X chromosome, and organization of the regucalcin gene consists of seven 9 exons and six introns, and it comprises regucalcin family of over 15 species of vertebrate and 5,6,10 invertebrate. Regucalcin plays a multifunctional role in cell regulation: maintains 2+ intracellular Ca homeostasis and suppresses signal transduction, protein synthesis, cell 2-4 proliferation and apoptosis. Regucalcin has been found to play a pivotal role in maintaining 2-4 cell homeostasis as a suppressor of cell signaling in various types of cells and tissues. Cancer is a pathological condition, where cells display uncontrolled growth, invasion and metastasis. Cell proliferation is mediated through various intracellular signaling transductionrelated transcriptional activities that are stimulated by various hormone and cytokines. Enhanced cell proliferation may lead to carcinogenesis. However, mechanism of carcinogenesis is complex and development of novel therapy is required after thorough investigations. Regucalcin has been demonstrated to play a novel suppressing role in cell signaling, and it plays a multifunctional role in regulation of function of various types of cells 2-4 and tissues. Interestingly, overexpression of the regucalcin gene was found to suppress 11-13 liver cell proliferation and carcinogenesis in animal models. Moreover, analysis with multiple gene expression profiles and proteomics has showed that regucalcin gene 11-14 expression is uniquely suppressed in various human carcinoma tissues. Suppressed regucalcin gene expression may lead to the development of carcinogenesis. This mini-review focuses on the potential role of regucalcin as a suppressor in the development of carcinogenesis. Abstract


Introduction
Regucalcin was discovered in 1978 as a novel calcium-binding protein that suppresses 1-6 calcium signaling in various types of cells and tissues.The regucalcin gene (gene symbol; 7,8 polymerase II and III, thereby suggesting its suppressive effect, which is partly resulted from the inhibitory action on RNA polymerase II and III.Regucalcin may be also associated with direct inhibitory effects on nuclear DNA and RNA polymerase activity. Regucalcin was found to suppress nuclear function in proliferating cells using cloned hepatoma H4-II-E cells cultured in the presence of fetal bovine serum (FBS).Culture with FBS induced an increase in cell number and a corresponding elevation of various kinase activities, 2+ which are related to Ca /calmodulin-dependent protein kinase, protein kinase C, protein [29][30][31] tyrosine kinase and protein phosphatase activity in H4-II-E cells.
These enzymes may contribute to the enhancement of hepatoma cell proliferation after serum stimulation.The presence of anti-regucalcin monoclonal antibody in the enzyme reaction mixture using H4-II-E cells cultured with FBS stimulation was found to elevate the activities of protein kinase and protein phosphatase.Such an effect is suppressed by the addition of exogenous regucalcin in the enzyme reaction mixture.Regucalcin plays a crucial role as a suppressor in the enhancement of cell proliferation due to inhibiting the activities of various protein kinases and 29-31 protein phosphatases in the cytoplasm and nucleus.
Importantly, nuclear DNA synthesis activity was increased at 6 hours after culture with FBS, which is preceded by an elevation in 32,33 the number of H4-II-E cells cultured with FBS.
Nuclear DNA synthesis activity in H4-II-E cells was significantly suppressed by the addition of regucalcin in the reaction mixture, and its 32, 33 activity was enhanced by the addition of regucalcin into the reaction mixture, thereby supporting the view that endogenous regucalcin suppresses DNA synthesis activity by which inhibiting protein kinases in the nuclei of proliferating H4-II-E cells using anti-regucalcin 32 monoclonal antibody.
Moreover, to determine the role of endogenous regucalcin in the regulation of nuclear DNA synthesis, regucalcin/pCXN2-transfected cells, where H4-II-E cells overexpress regucalcin 33 stably, were generated.The increase in cell number and DNA synthesis activity in transfectants was suppressed as compared to those of wild-and mock-type; thereby indicating that overexpression of endogenous regucalcin has suppressive effects on cell 33 proliferation.This finding supported the view that the augmentation of endogenous regucalcin has potent suppressive effects on nuclear DNA synthesis activity in proliferating  As described above, regucalcin suppressed the effects on cell proliferation by regulating many gene expressions that are related to cell proliferation in hepatoma H4-II-E cells and 3 9 normal kidney NRK52E cells.Regucalcin can bind DNA and modulate nuclear 18 transcriptional activity.Also, regucalcin can bind to the promoter region of various genes, which suppress stimulator gene expression or stimulate suppressor gene expression in cell 39 proliferation.Overexpression of endogenous regucalcin suppresses cell proliferation.Regucalcin may play a pivotal role as a suppressor for over-proliferation of normal and cancer cells by regulating multi-signaling process related to transcription activity.Interestingly, overexpression of regucalcin was shown to protect apoptotic cell death in normal and cancer 40 cells induced by various signaling stimulating-factors, supporting the view that the regucalcin-suppressed proliferation is not critical for apoptotic cell death.

Suppressive Role of Regucalcin in the Development of Carcinogenesis
Hepatocellular carcinoma (HCC), the most common primary liver cancer, is one of the most prevalent malignant diseases worldwide, and the third most common causes of cancer- antitrypsin deficiency are also found to be associated with the development of liver cirrhosis.

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Hepatocarcinogenesis is a multistep process initiated by external stimuli that lead to genetic changes in hepatocytes or stem cells, resulting in proliferation, apoptosis, dysplasia and neoplasia.The majority of HCC cases are also related to chronic viral infections.Hepatitis B virus (HBV) DNA integrates into the host genome, inducing chromosome instability and 49-52 insertional mutations that may activate various oncogenes, such as cyclin A.
Viral proteins, in particular X protein (HBx), act as transactivators that upregulate several oncogenes, such  The contributions of hepatitis C virus (HCV) to hepatocarcinogenesis are mediated through viral proteins, including core, NS3 and NS5A proteins.HCV core protein can promote apoptosis or cell proliferation by interaction 56 with p53 or upregulation of Wnt-1 at the transcriptional level.
The prognosis of advanced HCC remains poor in spite of the development of novel therapeutic strategies.Traditional therapies are not effective for HCC and are too toxic for patients with cirrhosis.Currently, transarterial chemoembolization and radioembolization remain the main treatments for intermediate-stage HCC.Improved knowledge of the oncogenic processes and signaling pathways, which regulate tumor cell proliferation, differentiation, angiogenesis, invasion and metastasis, has led to the identification of several potential therapeutic targets that have driven the development of molecular-targeted 57 therapies.An ideal cancer target meets the following criteria: the target is relatively specific for cancer cells (not expressed or expressed at very low levels in normal cells but 67 overexpressed in cancer cells).The target is "drugable" as an enzyme (e.g., a kinase) or cell surface molecule (e.g., a membrane-bound receptor) that can be easily screened for small-57,58 molecule inhibitors or targeted by a specific antibody.
The only systemic therapy available 58 for advanced HCC is based on the multikinase inhibitor sorafenib, which is the most effective therapeutic tool for advanced nonresectable HCC.In the past few years, the use of sorafenib in combination with transarterial chemoembolization has improved survival rates in patients with advanced HCC.New perspectives in cancer treatment have appeared with the advent of 59 microRNAs, a novel class of noncoding small RNAs.

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Regucalcin, a suppressor protein in various cell signal transductions, has been 35, 60 demonstrated to play a pivotal role in the suppression of hepatocarcinogenesis.As introduced in previous section, overexpression of regucalcin was found to play a role as a suppressor protein in cell proliferation that is mediated through various signaling stimulations in the cloned normal rat kidney proximal tubular epithelial NRK52E cells and the cloned rat 11 hepatoma H4-II-E cells, inducing G1 and G2/M phase cell cycle arrest.Regucalcin has also been demonstrated to exhibit direct inhibitory effects on the activities of various 2+ Ca /calmodulin-dependent enzymes, protein kinases and protein phosphatases in the cytoplasm and nuclei, suppressive effects on nuclear DNA and RNA synthesis, depressive effects on the gene expression of c-myc, Ha-ras and c-src, a tumor-stimulator gene and 39 stimulatory effects on the gene expression of p53 and Rb, a tumor-suppressor gene.Moreover, regucalcin was demonstrated to inhibit protein synthesis by inhibiting aminoacyl-3, 4 tRNA synthetase and stimulate protein degradation by activating cysteinyl protease.Thus, suppressive effects of regucalcin on cell proliferation are mediated by targeting multimolecules in liver cells.
Importantly, the gene expression of regucalcin was demonstrated to be suppressed in the development of hepatocarcinogenesis. Liver regucalcin gene expression was suppressed at early periods of carcinogenesis in rats treated with diethy lnitrosamine and then 2acetylaminofluorene combined with partial hepatectomy, which induces an increase in 12 proliferating cells.Suppression of regucalcin protein expression was identified in proteomic analysis that was differentially expressed in the livers of rats fed 5% ethanol for one and three induced by administration of carbon tetrachloride, galactosamine and phenobarbital in 64 rats.Hepatic regucalcin level was also reduced in diabetes and during ethanol ingestion, which may result in cirrhosis and HCC.Suppressed regucalcin gene expression may lead to the development of HCC.Multiple gene expression profiles and proteomics analysis have showed that the regucalcin gene and its protein levels were found to be significantly suppressed in human HCC.Suppressed regucalcin gene expression may lead to the development of human hepatocarcinogenesis.

Prospects
We demonstrated that regucalcin mRNA expression is suppressed in various human normal and tumor tissues, including HCC, kidney transitional cell carcinoma, brain malignant  Overexpression of the regucalcin gene in cancer cells may exhibit preventive and therapeutic effects on the development of carcinogenesis.Development of the regucalcin gene deliver system will be expected as a novel gene therapy in clinical aspects for cancer treatment.
hepatoma cells.Regucalcin has been proposed to play a suppressive role for the overproliferation of liver cells.Overexpression of regucalcin was demonstrated to induce G1 and G2/M phase cell cycle 34 arrest in transfectants (H4-II-E cells).The mRNA expression of p21, an inhibitor of cyclindependent kinases (cdk), was increased in transfectants, although cdc2a and chk2 34 (checkpoint-kinase 2) mRNA levels were not significantly altered.Regucalcin may enhance p21 expression and inhibits G1 progression in H4-II-E cells.Overexpression of endogenous regucalcin has also been shown to suppress proliferation of cloned normal rat kidney proximal 35 tubular epithelial NRK52E cells.Endogenous regucalcin was shown to induce G1 and G2/M 35 phase cell cycle arrest in NRK52E cells.Interestingly, expression of c-jun and chk2 35 (checkpoint-kinase 2) mRNAs was suppressed in the transfectants of NRK52E cells, and the expression of c-myc, c-fos, cdc2 and p21 mRNAs was not altered in transfectants.Suppressed c-jun and chk2 mRNA expressions may partly contribute to suppression of cell proliferation induced in regucalcin-overexpressing NRK52E cells.In addition, c-myc, c-fos, c-36 ju, and Ha-ras are known as tumor stimulator genes.p53 and Rb are tumor suppressor 37 genes, and c-src is oncogene.Expression of c-myc, Ha-ras or c-src mRNAs was suppressed 38 in regucalcin-overexpressing transfectants.Expression of p53 and Rb mRNAs was 38 markedly enhanced in transfectants.Suppressed expression of c-myc, Ha-ras and c-src mRNAs and enhanced expression of p53 and Rb mRNAs in transfectants may lead to retardation of proliferation of hepatoma H4-II-E cells.Also, expression of p53 mRNA was enhanced in regucalcin-overexpressing transfectants of NRK52E cells, while expression of c-35 myc, c-fos, cdc2 and p21mRNAs was not altered in transfectants.Suppressed c-jun and chk2 mRNA expressions and enhanced p53 mRNA expression may lead to retardation of cell proliferation in NRK52E cells overexpressing regucalcin.
meningioma and lung non-small cell carcinoma in human subjects.Regucalcin plays a key role in suppressing the cell proliferation and carcinogenesis in various types of human cancer cells and tissues.Importantly, survival has been shown to be prolonged in pancreatic cancer 70 patients, with increased regucalcin gene expression, and overexpression of regucalcin was 70 found to suppress the cell proliferation in human pancreatic cancer MIA PaCa-2 cells in vitro.