Differential expression of miRNAs in pancreatobiliary type of periampullary adenocarcinoma and its associated stroma.

Periampullary adenocarcinomas can be of two histological subtypes, intestinal or pancreatobiliary. The latter is more frequent and aggressive, and characterized by a prominent desmoplastic stroma, which is tightly related to the biology of the cancer, including its poor response to chemotherapy. Whereas miRNAs are known to regulate various cellular processes and interactions between cells, their exact role in periampullary carcinoma remains to be characterized, especially with respect to the prominent stromal component of pancreatobiliary type cancers. The present study aimed at elucidating this role by miRNA expression profiling of the carcinomatous and stromal component in twenty periampullary adenocarcinomas of pancreatobiliary type. miRNA expression profiles were compared between carcinoma cells, stromal cells and normal tissue samples. A total of 43 miRNAs were found to be differentially expressed between carcinoma and stroma of which 11 belong to three miRNA families (miR-17, miR-15 and miR-515). The levels of expression of miRNAs miR-17, miR-20a, miR-20b, miR-223, miR-10b, miR-2964a and miR-342 were observed to be higher and miR-519e to be lower in the stromal component compared to the carcinomatous and normal components. They follow a trend where expression in stroma is highest followed by carcinoma and then normal tissue. Pathway analysis revealed that pathways regulating tumor-stroma interactions such as ECM interaction remodeling, epithelial-mesenchymal transition, focal adhesion pathway, TGF-beta, MAPK signaling, axon guidance and endocytosis were differently regulated. The miRNA-mRNA mediated interactions between carcinoma and stromal cells add new knowledge regarding tumor-stroma interactions.

Molecular signatures of mRNAs and miRNAs as prognostic biomarkers in pancreatobiliary and intestinal types of periampullary adenocarcinomas.

Periampullary adenocarcinomas include four anatomical sites of origin (the pancreatic duct, bile duct, ampulla and duodenum) and most of them fall into two histological subgroups (pancreatobiliary and intestinal). Determining the exact origin of the tumor is sometimes difficult, due to overlapping histopathological characteristics. The prognosis depends on the histological subtype, as well as on the anatomical site of origin, the former being the more important. The molecular basis for these differences in prognosis is poorly understood. Whole-genome analyses were used to investigate the association between molecular tumor profiles, pathogenesis and prognosis. A total of 85 periampullary adenocarcinomas were characterized by mRNA and miRNA expressions profiling. Molecular profiles of the tumors from the different anatomical sites of origin as well as of the different histological subtypes were compared. Differentially expressed mRNAs and miRNAs between the two histopathological subtypes were linked to specific molecular pathways. Six miRNA families were downregulated and four were upregulated in the pancreatobiliary type as compared to the intestinal type (P < 0.05). miRNAs and mRNAs associated with improved overall and recurrence free survival for the two histopathological subtypes were identified. For the pancreatobiliary type the genes ATM, PTEN, RB1 and the miRNAs miR-592 and miR-497, and for the intestinal type the genes PDPK1, PIK3R2, G6PC and the miRNAs miR-127-3p, miR-377* were linked to enriched pathways and identified as prognostic markers. The molecular signatures identified may in the future guide the clinicians in the therapeutic decision making to an individualized treatment, if confirmed in other larger datasets.

Basal and interferon-induced 2',5'-oligoadenylate synthetase activity in human placental trophoblast and trophoblast-derived malignant cell lines.

Human placental trophoblasts produce interferon (tro-IFNs) when stimulated with viral inducers. Since the antiviral and cellular functions of IFNs are partly mediated by the 2',5'-oligoadenylate synthetase (2-5A synthetase) pathway, the aim of the present study was to determine the basal and IFN-induced levels of 2-5A synthetase in villous trophoblast cultures. A considerable basal level of 2-5A synthetase was observed in syncytiotrophoblast cultures from both first and third trimester. In contrast no basal activity was detectable in placental fibroblast- and trophoblast-derived malignant cell lines (Far, FEG-3, and BeWo). Stimulation with tro-IFN-beta, -alpha and leucocyte-IFN (leu-IFN)-alpha increased the enzyme activity in first and third trimester human syncytiotrophoblast cultures. Treatment with recombinant-IFN (rec-IFN)-gamma significantly enhanced 2-5A synthetase activity in first trimester syncytiotrophoblast, but had no effect on third trimester syncytiotrophoblast. Tro-IFN-beta, -alpha and leu-IFN-alpha induced high levels of 2-5A synthetase activity in placental fibroblast, BeWo and FEG-3 cell-lines, whereas rec-IFN-gamma treatment did not induce 2-5A synthetase activity in any of these cells. No detectable 2-5A synthetase activity was found in the Far cell line. The capability of cells deriving from the fetoplacental unit to raise an antiviral response by the induction of 2-5A synthetase may be important in defending the fetus against viral infection from the mother. Furthermore 2-5A synthetase in cells of the fetoplacental unit may play a role in their normal growth and development.

Cell-mediated transmission of human T cell lymphotropic virus type I to human malignant trophoblastic cells results in long-term persistent infection.

We investigated permissiveness of the malignantly transformed trophoblast (choriocarcinoma) cell lines JAR, BeWo and JEG-3 to the human T cell lymphotropic virus type I (HTLV-I). After co-culture with the productively infected cell line MT-2 the choriocarcinoma cell lines were analysed for infection over a period of three months. The presence of HTLV-I viral DNA was examined by PCR using primers targeting the gag, pol, env and pX specific sequences. All amplified segments were found consistently in the cell cultures throughout the period of study. Further analysis that aimed to characterize the size variation of the integrated proviral DNA by Southern blotting revealed the presence of integrated proviral sequences which consisted, for the most part, of incomplete genomes. The presence of the full-length HTLV-I genome, however, was unequivocally confirmed in clonally expanded cell cultures derived from the originally infected parental cells. In order to analyse virus expression at the transcriptional level, we used reverse transcriptase (RT)-mediated PCR that was targeted at intra-exon regions (gag, pol, env and pX), and the splicing sites of the env and pX-tax/rex mRNAs. When compared with MT-2 cells, substantially lower levels of all transcripts were found in all the cell lines analysed. We were unsuccessful in attempts to detect viral protein expression using polyvalent or Tax- and Gag-specific monoclonal antibodies by Western blot analysis or immunoprecipitation, and we could not detect any RT activity released into the supernatant of the infected cells either. Collectively, these data suggest that the trophoblastic cells may become persistently but essentially non-productively infected with HTLV-I.

Human trophoblast interferons enhance major histocompatibility complex class I antigen expression on human term trophoblast cells in culture.

The expression and regulation of major histocompatibility complex class I (MHC class I) antigens by virus-induced human trophoblast interferons (tro-IFNs) were examined in term trophoblast cultures. Flow cytometry studies using fluorescence monoclonal antibodies against MHC class I antigens revealed that isolated cytotrophoblasts can express MHC class I antigens. The expression of these antigens increased with stimulation of trophoblast cultures with tro-IFN-alpha and -beta. One hundred IU tro-IFN-alpha and -beta/ml induced no significant higher levels of MHC class I antigens as compared with the control, whereas 1000 IU tro-IFN-alpha and -beta/ml did. The tro-IFN-enhanced expression of MHC class I antigens may be important as it increases the efficiency of local and viral antigen presentation, cytotoxicity by T cell response and local inflammatory processes, thereby preventing virus spread from mother to fetus.

Physiological oxygen tension is relevant to MHC-1 expression, spontaneous transformation, and interferon response of in vitro aging murine fibroblasts.

Working from the hypothesis that modest deviations from physiological oxygen tension will influence cell characteristics important for infections/immunity and tumor development, cells were studied at three oxygen tensions during in vitro aging. Primary mouse embryo fibroblasts were established and subsequently passaged at 3, 6, and 18 kPa oxygen tension (6 representing normal tissue tension and 18 being the conventionally tension at in vitro cultures). The growth rate was slightly higher at 6 than 3 and 18 kPa. All cultures eventually stopped growing and subsequently transformed to nonmalignant cells with unlimited growth capacity. Cells kept at 3 kPa reached the highest number of cell doublings before crisis. Stimulation with PolyI:C resulted in detectable interferon response only at the high oxygen tension, and after transformation none of the cultures responded with interferon production. Expression of the major histocompatibility complex H-2K was elevated above and below physiological oxygen tension, indicating regulatory processes optimizing MHC expression at about physiological oxygen tension.

Isolation, purification and biochemical characterization of human placental interferons by tandem high-performance affinity chromatography.

Human placental trophoblasts, fibroblasts and the trophoblast-derived malignant cell JAR are potent producers of interferons (IFNs) when stimulated with Sendai virus. The three cell lines produced different levels and compositions of IFN-alpha subtypes and IFN-beta. Anti-IFN globulins, Cibacron Blue F3GA and Concanavalin A were covalently immobilized on pressure-stable, macroporous polymeric matrices derivatized with vinyl sulphone (HEMA-BIO 1000 VS and HEMA 1000 VS). These supports were packed in biocompatible PEEK columns and were coupled with switching valves, to develop a tandem high-performance affinity chromatographic (HPAC) method for the isolation, purification and biochemical characterization of the IFNs produced in Sendai virus-stimulated human placental trophoblasts, fibroblasts and trophoblast-derived malignant cell, JAR, cultures. Silver-stained SDS-PAGE and gel densitometric analysis revealed the purity of the purified proteins to be between 94 and 98%. Specific activities of the purified IFNs ranged between 0.37-2.76 x 10(8) IU/mg of protein with cumulative recoveries between 90 and 92.2%. The purified IFN components exhibited quantitatively different antiviral activities in human and bovine cell lines. The utility of the tandem method for the purification and characterization of human type 1 IFNs produced from other cell lines are also discussed.