Project description:Protein Kinase C alpha (PKC) is associated with progression and poor prognosis in head and neck cancer. Previous studies have demonstrated that PKC sustains the proliferative signal by increasing cyclin E expression, leading to enhanced E2F target gene transcription and DNA synthesis. Here we show that PKC increases DNA synthesis through inhibition of the microRNA, miR-15a, upregulating translation of its target cyclin E. Importantly, gene expression and qRT-PCR analysis of primary squamous cell carcinoma tumors of the head and neck (SCCHN) reveals a significant negative correlation between PKC alpha and miR-15a levels. In contrast to normal cell cycle initiation, PKC decreases microRNA expression, leading first to increased cyclin E protein followed by enhanced transcription of cyclin E and other DNA synthesis mediators. These results identify a signaling network regulated by PKC whereby constitutive kinase activation switches the system to feed forward, overriding normal regulation of cell cycle progression through a post-transcriptional mechanism involving microRNAs. This reprogramming of the network is likely a more general phenomenon that can account for the oncogenic potency of established signaling pathways. Keywords: miRNA; dose response; cancer

Project description:Protein Kinase C alpha (PKC) is a critical mediator of cell signaling and cancer growth. We show that PKC inhibitors decrease proliferation in squamous cell carcinoma of the head and neck (SCCHN) cells and abrogate growth of SCCHN tumors in mouse xenografts. Analysis of gene expression arrays reveals that PKC regulates cell cycle genes required for DNA synthesis. In particular, PKC increases cyclin E protein expression, cyclinE/cdk2 complex formation, and transcription of cyclin E and E2F target genes. Consistent with this mechanism, expression of cyclin E rescues the block in DNA synthesis caused by PKC inhibition. In SCCHN tissue, PKC and cyclin E expression increase progressively from normal and dysplastic to malignant human head and neck tissue. Furthermore, PKC  expression correlates with poor prognosis in SCCHN. These results demonstrate that PKC regulates growth by stimulating DNA synthesis through cyclin E and E2F and identify PKC as a therapeutic target that is highly expressed in aggressive SCCHN. Keywords: time course; dose response

Project description:Protein Kinase C alpha (PKC) is a critical mediator of cell signaling and cancer growth. We show that PKC inhibitors decrease proliferation in squamous cell carcinoma of the head and neck (SCCHN) cells and abrogate growth of SCCHN tumors in mouse xenografts. Analysis of gene expression arrays reveals that PKC regulates cell cycle genes required for DNA synthesis. In particular, PKC increases cyclin E protein expression, cyclinE/cdk2 complex formation, and transcription of cyclin E and E2F target genes. Consistent with this mechanism, expression of cyclin E rescues the block in DNA synthesis caused by PKC inhibition. In SCCHN tissue, PKC and cyclin E expression increase progressively from normal and dysplastic to malignant human head and neck tissue. Furthermore, PKC  expression correlates with poor prognosis in SCCHN. These results demonstrate that PKC regulates growth by stimulating DNA synthesis through cyclin E and E2F and identify PKC as a therapeutic target that is highly expressed in aggressive SCCHN. Experiment Overall Design: 9 samples composed of treated replicates at three time points

Project description:While microRNAs (miRs) have been extensively studied in the context of malignancy and tumor progression, their functions in regulating T cell activation are less clear. We found reduced levels of miR-15a/16 at 3-18 h post-T cell receptor (TCR) stimulation, suggesting a role in shaping T cell activation. An inducible miR15a/16 transgenic mouse model was developed to determine how elevating miR-15a/16 levels during early stages of activation would affect T cell proliferation and to identify TCR signaling pathways regulated by this miR pair. Doxycyclin (DOX) induced expression of miR-15a/16 from 0-18 h post-TCR stimulation decreased ex vivo proliferation as well as in vivo antigen-specific proliferation. Bioinformatic and proteomic approaches were combined to identify MEK1 as a target of miR-15a/16. MEK1 targeting by miR-15a/16 was confirmed using miR mimics that decreased MEK1 containing the 3’-UTR target nucleotide sequence (UGCUGCUA) but did not decrease MEK1 containing a mutated control sequence (AAAAAAAA). Phosphorylation of downstream signaling molecules ERK1/2 and Elk1 were decreased with DOX-induced miR-15a/16 expression. In addition to MEK1, ERK1 was subsequently found to be targeted by miR-15a/16, with DOX induced miR-15a/16 reducing total ERK1 levels in T cells. These findings show that TCR stimulation reduces miR-15a/16 levels at early stages of T cell activation to facilitate increased MEK1 and ERK1, and this promotes sustained MEK1-ERK1/2-Elk1 signaling required for optimal proliferation.

Project description:We intended to investigate effects of mmu-miR-15a-3p on gene expression in mice

Project description:We intended to investigate effects of mmu-miR-15a-3p on gene expression in mice We used microarrays to compare gene expression in mouse B/CMBA.Ov cell lines transfected with mmu-miR-15a-3p and negative control mimic

Project description:MicroRNAs are important regulators of gene expression and associated with stress-related psychiatric disorders. We report that exposing mice to chronic stress led to a specific increase in microRNA-15a levels in the amygdala-Ago2 complex, and a concomitant reduction in the levels of its predicted target, FKBP51, which is implicated in stress-related psychiatric disorders. Reciprocally, mice expressing reduced levels of amygdalar microRNA-15a following exposure to chronic stress exhibited increased anxiety-like behaviors. Here, we performed small RNA Sequencing of mouse basolateral amygdala after miR15a knockdown using injection of a miR-15a sponge virus or control sponge virus.

Project description:Head and neck cancer is a hetergeneous disease. Based on previoulsy defined molecular subtypes we associated gene expression with response to different compounds. We used microarry gene expression for molecular subtyping Cetuximab is the single targeted therapy approved for the treatment of head and neck cancer (SCCHN). Predictive biomarkers have not been established in the clinical setting and patient stratification based on molecular tumor profiles has not been possible. Since EGFR pathway activation is pronounced in basal subtype, we hypothesized this activation could be a predictive signature for an EGFR directed treatment. From our patient derived xenograft platform of head and neck cancer, 28 models were subjected to Affymetrix gene expression studies on HG U133+ 2.0. Based on the expression of 821 genes, the subtype of each of the 28 models was determined by integrating gene expression profiles through centroid-clustering with previously published gene expression data by Keck et al.,CCR 2015. Response was evaluated by comparing tumor volume at treatment initiation and after three weeks of treatment (RTV).

Project description:Efficacy of the Multi-Kinase Inhibitor Enzastaurin is Dependent on Cellular Signaling Context Testing a panel of SCCHN cell lines revealed variable sensitivity to enzastaurin which correlated significantly with baseline cyclin D1 protein expression. Moreover, sensitivity and resistance could be reversed, respectively, by expression or depletion of cyclin D1. Furthermore, analysis of sensitive and resistant cell lines revealed distinct differences in cyclin D1 regulation. Enzastaurin modulated cyclin D1 synthesis via an AKT regulated pathway in the former while high level CCND1 gene amplification was present in the latter. These results underscore the critical relevance of cellular signaling context in developing cancer therapies, in general, and suggest that enzastaurin, in particular, would be most effective in tumors where baseline cyclin D1 expression is low to moderate and physiologically regulated.

Project description:Efficacy of the Multi-Kinase Inhibitor Enzastaurin is Dependent on Cellular Signaling Context Testing a panel of SCCHN cell lines revealed variable sensitivity to enzastaurin which correlated significantly with baseline cyclin D1 protein expression. Moreover, sensitivity and resistance could be reversed, respectively, by expression or depletion of cyclin D1. Furthermore, analysis of sensitive and resistant cell lines revealed distinct differences in cyclin D1 regulation. Enzastaurin modulated cyclin D1 synthesis via an AKT regulated pathway in the former while high level CCND1 gene amplification was present in the latter. These results underscore the critical relevance of cellular signaling context in developing cancer therapies, in general, and suggest that enzastaurin, in particular, would be most effective in tumors where baseline cyclin D1 expression is low to moderate and physiologically regulated. CAL-27 cells were treated with the inhibitors for 24 hours and the gene expression from each group were analyzed