Dependence of expression of regulatory master genes of embryonic development in pancreatic cancer cells on the intracellular concentration of the master regulator PDX1

Exogenous expression of the gene encoding the pancreatic master regulator PDX1 in cell lines with different degrees of differentiation of pancreatic cancer cells is accompanied by changes in the expression of known master genes involved in cancer progression. In BxPC3^PDX+ cells, as compared to BxPC3^PDX–, we detected an increased expression of the following genes: NKX6.1 (2 times), NR5A2 (2.5 times), KLF5 (1.8 times), ZEB1 (3 times), and ONECUT1 (1.3 times), as well as a decreased expression of MUC1 and SLUG genes (3 and 2 times, respectively). In PANC1^PDX+ cells, as compared to the control PANC1^PDX– cells, we detected a decreased expression of ISL1 (2 times) and an increased expressed of KRT8 (2 times) and MUC1 (by 30%). In the high-grade cell lines (including the BxPC3 line studied), the total content of sites containing the marks of active enhancers was higher than that in the low-grade cell lines (PANC1).     

Downregulation of expression of mater genes <Emphasis Type="Italic">SOX9, FOXA2</Emphasis>, and <Emphasis Type="Italic">GATA4</Emphasis> in pancreatic cancer cells stimulated with TGFβ1 epithelial–mesenchymal transition

We show characteristic morphological changes corresponding to epithelial–mesenchymal transition (EMT) program fulfillment in PANC1 cell line stimulated with TGFβ1. Our results support downregulation of E-cadherin protein. We show 5- and 28-fold increase in SNAI1 and SNAI2 expression levels and 25- and 15-fold decrease in CDH1 and KRT8 expression levels, respectively, which confirms the EMT-program fulfillment. We demonstrate downregulation of expression of pancreatic master genes SOX9, FOXA2, and GATA4 (2-, 5-, and 4-fold, respectively) and absence of significant changes in HES1, NR5A2, and GATA6 expression levels in the cells stimulated with TGFβ1. Our results indicate the absence of induction of expression of PTF1A, PDX1, HNF1b, NEUROG3, RPBJL, NKX6.1, and ONECUT1 genes, which are inactive in PANC1 cell line after the EMT stimulated by TGFβ1.     

Effects of exendin-4 and selenium on the expression of GLP-1R,IRS-1, and preproinsulin in the pancreas of diabetic rats

The mechanisms by which exendin-4 and selenium exert their antidiabetic actions are still unclear. Here, we investigated the effects of exendin-4 or selenium administration on the expression of glucagon-like peptide-1 receptor (GLP-1R), insulin receptor substrate-1 (IRS-1), and preproinsulin in the pancreas of diabetic rats. Diabetes was induced by streptozotocin administration. Diabetic rats were injected intraperitoneally with 0.03 μg exendin-4/kg body weight/daily or treated with 5 ppm selenium in drinking water for a period of 4 weeks. GLP-1R and IRS-1 levels were decreased while the level of preproinsulin messenger RNA (mRNA) was increased in the pancreas of diabetic untreated rats, as compared to that in control rats. Treatment of diabetic rats with exendin-4 increased protein and mRNA levels of GLP-1R, and IRS-1, and the mRNA level of preproinsulin in the pancreas, as compared to their levels in diabetic untreated rats. Selenium treatment of diabetic rats increased the pancreatic mRNA levels of GLP-1R, IRS-1, and preproinsulin. Exendin-4 or selenium treatment of diabetic rats also increased the numbers of pancreatic islets and GLP-1R molecules in the pancreas. Therefore, exendin-4 and selenium may exert their antidiabetic effects by increasing GLP-1R, IRS-1, and preproinsulin expression in the pancreas and by increasing the number of pancreatic islets.     

First report of <Emphasis Type="Italic">Ichthyophonus hoferi</Emphasis> infection in young coho salmon <Emphasis Type="Italic">Oncorhynchus kisutch</Emphasis> (Walbaum) at a fish hatchery in Kamchatka

Resting spores of Ichthyophonus hoferi (50–230 μm in diameter) were found in the kidney, heart, liver, skeletalal muscles, exocrine pancreas, and connective and fatty tissues of young coho salmon Oncorhynchus kisutch from the Vilyuisky fish hatchery. In 10% of the fish, there were granulomas and giant cells in these organs. This is the first report of Ichthyophonus infection in Kamchatka.     

How to make insulin-producing pancreatic β cells for diabetes treatment

Around 400 million people worldwide suffer from diabetes mellitus.The major pathological event for Type 1 diabetes and advanced Type 2 diabetes is loss or impairment of insulin-secreting β cells of the pancreas.For the past 100 years,daily insulin injection has served as a life-saving treatment for these patients.However,insulin injection often cannot achieve full glucose control,and over time poor glucose control leads to severe complications and mortality.As an alternative treatment,islet transplantation has been demonstrated to effectively maintain glucose homeostasis in diabetic patients,but its wide application is limited by the scarcity of donated islets.Therefore,it is important to define new strategies to obtain functional human β cells for transplantation therapies.Here,we summarize recent progress towards the production of β cells in vitro from pluripotent stem cells or somatic cell types including a cells,pancreatic exocrine cells,gastrointestinal stem cells,fibroblasts and hepatocytes.We also discuss novel methods for optimizing β cell transplantation and maintenance in vivo.From our perspective,the future of βcell replacement therapy is very promising although it is still challenging to control differentiation of β cells in vitro and to protect these cells from autoimmune attack in Type 1 diabetic patients.Overall,tremendous progress has been made in understanding βcell differentiation and producing functional β cells with different methods.In the coming years,we believe more clinical trials will be launched to move these technologies towards treatments to benefit diabetic patients.     

<Emphasis Type="Italic">K-ras,BRCA1/2</Emphasis>, and <Emphasis Type="Italic">CHEK2</Emphasis> mutations and loss of heterozygosity at 9p, 17p,and 18q in sporadic adenocarcinoma of the pancreas

The diagnostic significance of molecular markers was assessed for the most common somatic aberrations at the K-ras, TP53, CDKN2A, and MADH4 loci, as well as less common mutations of BRCA1, BRCA2, and CHEK2, arising in preinvasive stages of sporadic adenocarcinoma of the pancreas. The study was performed on paired primary pancreatic adenocarcinoma and normal pancreatic tissue specimens obtained from 37 Russian patients. Surgical adenocarcinoma specimens were subjected to manual microdissection. Mutations of K-ras codon 12 were found in 24 tumor specimens (0.65), but not in normal pancreatic tissue specimens. Mutations of BRCA1 (185delAG, 300T > G, 4153delA, 4158A > G, 5382insC), BRCA2 (695insT, 6174delT), and CHEK2 (1100delC) were not found. The informativeness of allelic losses did not differ significantly among the three tumor suppressor loci and was 60% for TP53 (GDB186817) and CDKN2A (D9S974 + D9S162) and 65.7% for MADH4 (D18S363 + D18S474) (t = 0.48). The CDKN2A locus had the highest LOH frequency of 0.95. For TP53 and MADH4 the LOH frequency was 0.62 and 0.70, respectively. In 80% of adenocarcinomas, at least one locus was characterized with LOH. The overall informativeness of the combined data on K-ras mutations and loss of heterozygosity at 9p, 17p, and 18q was 85.7%. Only 9% of the tumors were characterized with microsatellite instability.     

Molecular genetics of type 1 diabetes mellitus: Achievements and future trends

Type 1 diabetes mellitus (T1DM) is a widespread severe disease that results from autoimmune destruction of β cells in Langerhans islets of the pancreas. To date, several loci involved in T1DM have been reliably identified using various approaches: the MHC locus, VNTR within the 5′-nontranscibed region of the insulin gene (INS), CTLA4 (T-cell surface receptor), PTPN22, PTPN2 (T-cell tyrosine phosphatases), IL2 (interleukin 2, IL-2), IL2RA (IL-2 receptor α chain), KIAA0350 (unknown function), and IFIH1 (receptor for double-stranded DNA generated in virus infections). Functional analysis of their protein products confirmed the hypothesis that T1DM is underlain by deregulation of the mechanisms of immune tolerance and, on the other hand, a destructive immune response against the body’s own proteins after virus infection or some other immune stress. Thus the protein products of MHC, INS, PTPN22, and PTPN2 are involved in the intrathymic formation of the T-cell repertoire, responsible for immune defense of the body. On the other hand, nonspecific activation of T cells, which starts autoimmune destruction of pancreatic β cells, is most likely associated with the protein products of CTLA4, IL2, IL2RA, and, possibly, PTPN22 and PTPN2. Apart from the genes with unknown functions, the only exception is IFIH1, but its association with T1DM confirms that certain virus infections can activate autoreactive T cells and lead to T1DM.     

Impact of Metalloproteinase 1 Deficiency Induced by Specific Small Hairpin RNA on the Physiological Effects of Tumor Necrosis Factor

Matrix metalloproteinases play an important role in the pathogenesis of psoriasis. The aim of this paper was to explore the influence of MMP1 silencing with a specific shRNA on migration and proliferation of epidermal keratinocytes exposed to tumor necrosis factor, as well as changes in the expression of genes involved in their terminal differentiation. Changes in gene expression were analyzed by real-time PCR. The cell proliferation was assessed by comparative analysis of the growth curves. The cell migration was explored by scratch assay. To quantify cell migration, the representative areas of cell cultures were photographed in the equal periods of time and compared to each other. The obtained results demonstrated that an exposure of control cell line to tumor necrosis factor caused changes in the expression of several genes similar to ones that were previously observed in lesional psoriatic skin. Particularly, the expression of MMP9, IVL and KRT16 increased whereas the expression of LOR, KRT1 and-10—decreased. In contrast, MMP1-deficient cells treated with tumor necrosis factor exhibited higher levels of LOR, KRT1 and -10, as well as lower levels KRT16 and -17 compared to control cells treated with the same cytokines. Moreover, MMP1-deficient cells exhibited a lower level of CCNА2 and higher level of CCND1. In this respect, knocking MMP1 down resulted in a lower cell proliferation and migration rates of TNF-treated epidermal keratinocytes. In conclusion, this study demonstrated that MMP1 silencing with specific shRNA can be beneficial for psoriasis. We found that knocking MMP1 down has an antiproliferative effect on epidermal keratinocytes and partially normalizes the expression of cyclins CCNA2, and -D1, as well as the genes involved in the terminal differentiation of this kind of cells (LOR, KRT1, -10, -16 and -17).     

Establishment and characterization of a mid-kidney cell line derived from golden pompano <Emphasis Type="Italic">Trachinotus ovatus</Emphasis>, a new cell model for virus pathogenesis and toxicology studies

Golden pompano Trachinotus ovatus, a popularly cultured and commercially important marine fish worldwide, has been recognized as a promising candidate for mariculture. However, outbreaks of infectious bacterial or viral diseases and environmental deterioration have led to great economic losses in T. ovatus aquaculture recently. In our research, we established a new mid-kidney cell line, designated as TOK, from golden pompano, T. ovatus. The optimized growth temperature and working concentration of fetal bovine serum (FBS) were 28°C and 10–20%, respectively. Foreign genes could express well in TOK cells. The modal number of TOK cells was 54. The TOK cells were susceptive to Singapore grouper iridovirus (SGIV) and red-spotted grouper nervous necrosis virus (RGNNV), and the virus could propagate in cells. Propagation was verified by qRT-PCR, and virions were observed under electron microscopy. Cytotoxicity analysis revealed that TOK cells were sensitive to different concentrations of extracellular products (ECPs) from Vibrio alginolyticus and V. anguillarum. Moreover, heavy metals (Cd, Cu, and Hg) also showed dose-dependent cytotoxicity to the TOK cell line. We established a mid-kidney cell line from T. ovatus which could be applied to cytotoxicity assays of heavy metals. The newly established TOK cell line possesses great application potential in genetic manipulation, virus–host interaction studies, and toxicity assays of bacterial extracellular products and heavy metals.     

Cell culture system versus adventitious root culture system in Asian and American ginseng: a collation

Panax ginseng and Panax quinquefolius of Panax genus are valuable as health foods as well as pharmaceuticals for the treatment of cancer, diabetes and ageing as these plants possess saponins. In the current study, Cell and adventitious root cultures of P. ginseng and P. quinquefolius were investigated for the biomass, cell division, saponin content and ginsenosides profile from four lines namely P. quinquefolius (AM), P. ginseng mountain (Mt.) Baekdu line, P. ginseng Cheong-sol line (CS) and P. ginseng CBN line (CBN) with the objective of comparing cell and adventitious root systems to check their efficacy for the production of ginseng saponins. Additionally, genes related to ginsenoside biosynthesis were also analyzed concerning to cell and adventitious root lines. The results indicated that various cell lines were better in multiplication and growth compared to adventitious root lines. However, adventitious root lines showed higher accumulation of dry biomass (1.5–2 fold) than that of cell lines. CS adventitious root line showed higher saponin content and ginsenoside productivity (10.48 mg·g^?1 DW, 12.88 mg·L^?1, respectively) than that of CS cell line (9.50 mg·g^?1 DW, 2.39 mg·L^?1, respectively). Especially, Rd ginsenoside productivity of CS adventitious root line recorded fourfold higher than CS cell line. Genes which are related to ginsenoside biosynthesis such as P. ginseng squalene synthase (PgSS2), P. ginseng squalene epoxidase (PgSE2), P. ginseng protopanaxadial synthase (PgPPDS) and P. ginseng protopanaxatriol synthase (PgPPTS) were analyzed by real time quantitative polymerase chain reaction to support ginsenoside production. The adventitious root culture system described in this study is useful system for biomass and ginsenoside production.     

<Emphasis Type="Italic">In vitro</Emphasis> preconditioning of insulin-producing cells with growth factors improves their survival and ability to release insulin

Glucose-induced oxidative stress in the diabetic pancreas directly affects viability and the consequent therapeutic outcome of transplanted stem cells. Pretreatment of stem cells with growth factors induces tolerance in them against various stresses (hypoxia, thermal or hyperglycaemic). This study investigated the effect of pretreatment on insulin-producing cells (IPCs) differentiated from adipose-derived mesenchymal stem cells (ADMSCs), with a combination of stromal cell-derived factor 1 alpha (SDF1α) and basic fibroblast growth factor (bFGF) against hyperglycaemic stress (17 or 33 mM glucose). The results showed that IPCs pretreated with a combination of SDF1α and bFGF exhibited maximally alleviated apoptosis, senescence and cell damage with a concomitantly increased release of insulin, enhanced cell proliferation and greater up-regulation of Insulin 1, Insulin 2, Ngn3, Pdx1 and Nkx6.2 when stressed with 33 mM glucose. These findings may offer an improved therapeutic outcome for the treatment of diabetes.