Project description:Aging is associated with appearance of senescent cells secreting the senescence-associated secretome facilitating a milieu favoring age-related changes in microenvironment. Previously, we showed accumulation and secretion of local non-pituitary growth hormone (npGH) in senescent colon epithelial cells. Here, we elucidate mechanisms underlying npGH action in the non-tumorous colon tissue microenvironment. We demonstrate autocrine npGH action in normal human colon cells (hNCC) infected with lentivirus expressing hGH (lentiGH), as well as paracrine npGH action in hNCC cocultured with lentiGH hNCC and in intact human 3-dimensional intestinal organoids co-cultured with organoids infected with lentiGH. Enriched gene ontology and pathway analysis of intact organoids exposed to paracrine npGH identified distorted extracellular matrix (ECM) and focal adhesion pathways concurrent with altered expression of ECM and cytoskeletal proteins. Significant phosphoprotein changes associated with cytoskeleton and cell migration pathway occurred in GH-exposed hNCC. Paracrine npGH triggers these changes by activating epithelial-mesenchymal transition, as shown by suppression of E-cadherin and induction of Twist2 in cellular models, as well as in the colon of nude mice harboring GH-secreting xenografts. These changes are consistent with observed increased migration of hNCC overexpressing lentiGH, or in those co-cultured with GH-secreting hNCC or with GH-secreting normal colon fibroblasts. Furthermore, whole exome sequencing detected increased cell copy number alterations in intact organoids co-cultured with lentiGH-infected organoids, likely as a consequence of GH-mediated suppressed DNA damage repair thereby favoring cell transformation. Our results indicate that accumulated npGH in aging tissue enables a microenvironment landscape favoring age-associated pro-proliferative changes.

Project description:(Objectives) The goal of this study is to investigate paracrine effect of peripheral blood mononuclear cells (PBMCs) on colon cancer cell lines. (Method) Transcription profiles of PBMCs (control) and PBMCs co-cultured with colon cancer cell lines (treatment) were generated by deep sequencing, in triplicate for SW480 and duplicate for HT29, using Illumina HiSeq 4000. (Results and conclusion) Transcriptome analysis of PBMCs has shown the gene expression changed when co-cultured with colon cancer cell lines. The result revealed significantly up- and down-regulated genes.

Project description:Objective Circulating plasma miRNAs have been increasingly studied in the field of pituitary neuroendocrine tumor (PitNET) research. Our aim was to discover circulating plasma miRNAs species associated with growth hormone (GH) secreting PitNETs and assess how the plasma levels of discovered miRNA candidates are impacted by SSA therapy and whether there is a difference in their levels between GH secreting PitNETs and other PitNET types. Methods miRNA candidates were discovered using the whole miRNA sequencing approach and differential expression analysis. Selected miRNAs were then analyzed using real-time polymerase chain reaction (qPCR). Results Whole miRNA sequencing discovered a total of 19 differentially expressed miRNAs (DEMs) in GH secreting PitNET patients' plasma 24 hours after surgery and 19 DEMs between GH secreting PitNET patients’ plasma and non-functioning (NF) PitNET patients’ plasma. Seven miRNAs were selected for further testing of which miR-625-5p, miR-503-5p miR-181a-2-3p and miR-130b-3p showed a significant downregulation in plasma after 1 month of SSA treatment. miR-181a-5p and mir-625-5p were also found to be significantly downregulated in plasma of GH secreting PitNET patients vs. NF PitNET patients. Conclusions Our study suggests that expression of plasma miRNAs miR-625-5p, miR-503-5p miR-181a-2-3p and miR-130b-3p in GH secreting PitNETs is affected by SSA treatment. Additionally, miR-625-5p and miR-181a-5p can distinguish GH secreting PitNETs from other PitNET types warranting further research on these miRNAs for treatment efficacy.

Project description:We profiled the somatic landscape of 21 growth hormone (GH) -secreting pituitary adenomas using somatic copy-number alteration (SCNA), whole-genome sequencing (WGS), bisulfate sequencing, and transcriptome approaches. See details in Valimaki et al. Genetic and epigenetic characterization of growth hormone (GH) - secreting pituitary tumors. Manuscript in preparation, 2019.

Project description:This dataset represent the RNA-seq, which was done on untreated small intestinal organoids; small intestinal organoids treated with chemotherapeutic, busulfan; untreated small intestinal organoids co-cultured wth mesenchymak stromal/stem cells (MSCs; busulfan treated small intestinal organoids co-cultured with MSCs. The same set of samples was done for 3 different primary bone marrow MSC donors.

Project description:We investigated changes in transcriptome in Egfr KO PSCs co-cultured with pancreatic tumor organoids compared to Egfr WT PSCs co-cultured with the same pancreatic tumor organoids. We also investigated the changes in transcriptome in pancreatic tumor organoids co-cultured with Egfr WT or Egfr KO PSCs.

Project description:3D cell culture systems (organoids), cultured from liver biopsies, resemble biliary epthelium (cholangiocytes) upon culture. These intrahepatic cholangiocyte organoids (ICOs) maintain their gentic stability, transcription profile and can be maintained propagated during long periods of culturing while still maintaining their functional properties. The data presented in this ArrayExpress submission contained micro array results of 6 from 15 different ICO lines that were analyzed for their functional cholangiocyte ion-channels, involved in secreting a protective bicarbonate layer. It was shown that these data closely resemble the expression profiles of extrahepatic cholangiocyte organoids (ECOs), previously described by Sampaziotis et al. and deposited in the EMBL-EBI ArrayExpress repository (E-MTAB-4591)

Project description:Purpose: investigating paracrine effects of mono- and/or co-cultured LSEC and Hepa1-6 Method: mRNA profiles of mono- and co-cultured LSEC and Hepa1-6 were generated by deep sequencing. Results: The RNA-seq data confirmed that extracellular matrix-encoding genes were up-regulated by co-cultured LSEC with Hepa1-6.

Project description:Background & Aims: Spasmolytic polypeptide/TFF2-expressing metaplasia (SPEM) is known to emerge following parietal cell loss and during Helicobacter pylori infection, however its role in gastric ulcer repair is unknown. Therefore, we sought to investigate if SPEM plays a role in epithelial regeneration. Methods: Acetic acid ulcers were induced in young (2-3 months) C57BL/6 mice to determine the quality of ulcer repair. Gastric tissue was collected and analyzed to determine the expression of SPEM within the regenerating epithelium. As a comparison to native tissue the expression of SPEM was also identified within cultured gastric mouse-derived organoids. Results: Wound healing in the mice coincided with the emergence of SPEM expressing CD44v within the ulcerated region. The emergence of SPEM was also observed in cultured gastric organoids. Conclusions: These data demonstrate the SPEM may play a role in epithelial regeneration. Conclusions: These data demonstrate the SPEM may play a role in epithelial regeneration. 4 samples were used for ulcerated and uninjured tissue. 1 sample was used for intact tissue and organoid-derived RNA. The 'Ulcerated' samples represent C57BL/6 mice with ulcers and the 'Uninjured' samples represent the healthy controls (for "ulcerated" samples). The "Intact stomach tissue" and "Gastric organoids" samples are other types of samples that compared separately. "Gastric organoids" in this comparison are derived from "Intact stomach tissue".

Project description:Acromegaly is a severe and life-threatening disease caused by persistent excess of growth hormone (GH) which stimulates the synthesis and secretion of insulin-like growth factor-1 (IGF-1). In the majority (95%) of patients acromegaly is caused by sporadic GH-secreting neuroendocrine pituitary tumor (PitNET). Acromegaly-causing tumors are histologically diverse. The aim was to determine transcriptomic profiles in different histological subtypes and evaluate clinical implication of differential gene expression.