Hepatocellular carcinoma (HCC) is the most well-known primary liver malignancy worldwide. Its incidence is rising at alarming rates and has become a public concern globally. It is more frequent in developing countries than in industrialized countries with respect to geographical variation, ethnic disparities and socioeconomic status. Dietary exposure to aflatoxins is among the major HCC risk factors. Aflatoxin B1, which is a genotoxic hepatocarcinogen, which presumptively causes cancer by inducing DNA adducts leading to genetic changes in target liver cells. AFB1 is metabolized by cytochrome-P450 enzymes to the reactive intermediate AFB1-8, 9 epoxide (AFBO) which binds to liver cell DNA, resulting in DNA adducts. DNA adducts interact with the guanine bases of liver cell DNA and cause a mutational effect in the P53 tumor suppressor gene at the codon 249 hotspot in exon 7, which may lead to HCC. Approximately 4.5 billion of the world’s population is exposed to aflatoxin-contaminated food, particularly in low-income countries. Prevention involves treating crops that are susceptible to fungal contamination, appropriate handling of foodstuffs and the use of chemopreventive intervention. Moreover, an integrated network collaboration of different sectors, including public health, agricultural departments and mass media, is required to ensure effective food regulation systems so as to minimize the contamination of food by aflatoxins.
BackgroundDecorin is a multifunctional molecule of the extracellular matrix and impedes different kinds of tumor cell growth, but the role and molecular mechanism by which decorin inhibits HepG2 cells is not fully understood. Our objective was to construct recombinant human decorin (pcDNA3.1-DCN) and to explore the mechanism by which it inhibits HepG2 cells.MethodsThis experiment was divided into three groups, ie, a control group, an empty vector group, and a pcDNA3.1-DCN group. pcDNA3.1-DCN was constructed using recombinant DNA technology, and the vector for pcDNA3.1-DCN and pcDNA3.1 was then transfected into HepG2 cells using Lipofectamine 2000.ResultsCompared with cells in the control group and in the empty vector group, growth of cells in the pcDNA3.1-DCN group was significantly suppressed, the ratios of cells in the G0/G1 phases and proportion of early apoptotic cells were significantly increased, and the level of p21WAF1/CIP1 (p21) protein was markedly upregulated (P < 0.05). However, there was no significant difference among the three groups in p53 protein expression (P > 0.05).ConclusionThe pcDNA3.1-DCN vector was successfully constructed and transfected into HepG2 cells, and decorin overexpression suppressed the growth of HepG2 cells by upregulation of p21 via a p53-independent pathway.
Increasing the expression of cyclin-cyclin-dependent kinase inhibitors (cyclin-CDK) using small molecule inhibitors is a therapeutic strategy used to suppress cancer cell growth. Decorin (DCN), a functional component of the extracellular matrix, has been implicated in the suppression of cell proliferation by upregulating p21, a cyclin-CDK inhibitor. The purpose of this study was to examine the effect of recombinant decorin on the reactivation of p57KIP2, whose expression is silenced in hepatocellular carcinoma (HCC). Cell viability assay, cell cycle analysis, apoptosis assay and quantitative real time-PCR experiments were performed in three groups of HepG2 human cells: Uninfected HepG2 cells (control group), pcDNA3.1 vector-infected HepG2 cells (pcDNA3.1 group) and pcDNA3.1-DCN-infected HepG2 cells (pcDNA3.1‑DCN group). Our results revealed that recombinant human decorin inhibited cell proliferation, induced G0/G1 phase arrest and induced apoptosis by increasing the expression of caspase-3 in the pcDNA3.1-DCN group. The expression of p57KIP2 mRNA in the pcDNA3.1-DCN group was higher than in the pcDNA3.1 and control groups (P<0.05); however, there was no statistically significant difference between the control and pcDNA3.1 groups (P>0.05). In conclusion, recombinant human decorin reactivated p57KIP2 expression in HepG2 cells. As the expression level of p57KIP2 is downregulated in HCC, our finding may serve as a basis for the therapy and prognosis of HCC, although further studies are required.
Leadership is the working component of any organization; it’s the nerve cell for organizations to exist, function, progress, and flourish by utilizing human and material resources wisely and effectively. Hence, the study of leadership, particularly, in the healthcare sector is very important to bring about quality service delivery both in private and public sectors. The 21st century is characterized by a high pace of changes in technology, social, economic and political, and that healthcare leaders will have a tremendous impact on the lives of many people around the globe, if they possess the technical and functional competences of leadership styles. Leaders at all levels of a healthcare culture can learn the timeless and inevitable lessons through participating stakeholders to have their voices on the critical healthcare issues. The purpose of the review is to explore and highlight the importance of leadership in healthcare organizations. Throughout the review, the authors have learnt that a genuine healthcare leadership bypasses old practices and involves everyone. The study discovers that the complexities, challenges and barriers of healthcare industry are inherent and inevitable, but through thorough and further leadership study in the field, they can be somehow understood, minimized and be used as steppingstones.
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