Project description:Effect of PACAP treatment on Bovine chromaffin cells

Project description:The effect of PACAP treatment on the bovine chromaffin cells in vitro were investigated using mouse Mm36kd3 arrays. Although chromaffin cells have indigenous PACAP, the experiment was designed to find out the effect of additional PACAP on additional activation or suppression of transcription. Keywords: compound treatment design cy5 labelled RNA from PACAP treated bovine chromaffin cells were paired with cy3 labelled RNA from control chromaffin cells for hybridization. Four biological repeats were carried out.

Project description:The effect of PACAP treatment on the bovine chromaffin cells in vitro were investigated using mouse Mm36kd3 arrays. Although chromaffin cells have indigenous PACAP, the experiment was designed to find out the effect of additional PACAP on additional activation or suppression of transcription. Keywords: compound treatment design

Project description:The bovine chromaffin cell (BCC) is a unique model—a highly homogeneous and accessible neuroendocrine cell—in which to study gene regulation through first messenger-initiated signaling pathways that are specific to post-mitotic cells. BCCs were treated with tumor necrosis factor (TNF) or pituitary adenylate cyclase activating polypeptide (PACAP), two critical regulators of neural cell transcriptional programming during inflammation that act on TNFR2 and PAC1 receptors, respectively, in post-mitotic neuroendocrine cells. Transcripts which were significantly up regulated by either or both first messenger were identified from microarray analysis using two bovine oligonucleotide arrays (Affymetrix and Agilent) followed by statistical analysis with Partek Genomic suite. Microarray data were combined from the two arrays using qRT-PCR sampling validation, and the first-messenger transcriptome derived from TNF and PACAP signaling were compared. More than 90 percent of the genes up regulated either by TNF or PACAP were specific to a single first messenger. BioBase suite, DIRE and Opossum were used to identify common promoter/enhancer response elements that control the expression of TNF- or PACAP-stimulated genes. Bioinformatic analysis revealed that distinct groups of transcription factors control the expression of genes up regulated by either TNF or PACAP . Most of the genes up regulated by TNF contained response elements for members of the Rel transcription factor family, suggesting TNF-TNFR2 signaling mainly through the NF-kB signaling pathway. On the other hand, the PACAP regulated genes showed no enrichment for any single response element, containing instead response elements for combinations of transcription factors allowing activation through multiple signaling pathways, including cAMP, calcium and ERK, in neuroendocrine cells. Pharmacological strategies for mimicking neuroprotection by either PACAP or TNF in the context of CNS injury or degeneration in disease might focus on individual downstream gene activation pathways to achieve greater specificity in vivo.

Project description:The bovine chromaffin cell (BCC) is a unique modelM-bM-^@M-^Ta highly homogeneous and accessible neuroendocrine cellM-bM-^@M-^Tin which to study gene regulation through first messenger-initiated signaling pathways that are specific to post-mitotic cells. BCCs were treated with tumor necrosis factor (TNF) or pituitary adenylate cyclase activating polypeptide (PACAP), two critical regulators of neural cell transcriptional programming during inflammation that act on TNFR2 and PAC1 receptors, respectively, in post-mitotic neuroendocrine cells. Transcripts which were significantly up regulated by either or both first messenger were identified from microarray analysis using two bovine oligonucleotide arrays (Affymetrix and Agilent) followed by statistical analysis with Partek Genomic suite. Microarray data were combined from the two arrays using qRT-PCR sampling validation, and the first-messenger transcriptome derived from TNF and PACAP signaling were compared. More than 90 percent of the genes up regulated either by TNF or PACAP were specific to a single first messenger. BioBase suite, DIRE and Opossum were used to identify common promoter/enhancer response elements that control the expression of TNF- or PACAP-stimulated genes. Bioinformatic analysis revealed that distinct groups of transcription factors control the expression of genes up regulated by either TNF or PACAP . Most of the genes up regulated by TNF contained response elements for members of the Rel transcription factor family, suggesting TNF-TNFR2 signaling mainly through the NF-kB signaling pathway. On the other hand, the PACAP regulated genes showed no enrichment for any single response element, containing instead response elements for combinations of transcription factors allowing activation through multiple signaling pathways, including cAMP, calcium and ERK, in neuroendocrine cells. Pharmacological strategies for mimicking neuroprotection by either PACAP or TNF in the context of CNS injury or degeneration in disease might focus on individual downstream gene activation pathways to achieve greater specificity in vivo. For our analysis we have used both Affymetrix and Agilent arrays to identify the genes that are regulated up or down by neuropeptide PACAP and TNF-alpha. On Affyemetrix platform we performed technical repeats with 3 arrays with untreated samples, 3 arrays with samples from PACAP treatment, and 3 array with samples from TNF-alpha treatment. On the Agilent platform we performed technical repeats with 3 arrays for each treatment hybridizing Cy3-labelled RNA from untreated samples and Cy5-labelled RNA from either TNF-alpha or PACAP treated samples.

Project description:Small RNA sequencing of large dense-core vesicle in bovine chromaffin cells

Project description:targeted resequencing of bovine cancer-related genes

Project description:Heat stress target genes in bovine myeloid cells.

Project description:Interleukin-6 mediated signaling in adrenal medullary chromaffin cells

Project description:Genes regulated by TGF-beta in bovine articular chondrocytes