91 research outputs found
Artificial Neural Network Inference (ANNI): A Study on Gene-Gene Interaction for Biomarkers in Childhood Sarcomas
Objective: To model the potential interaction between previously identified biomarkers in children sarcomas using artificial neural network inference (ANNI).
Method: To concisely demonstrate the biological interactions between correlated genes in an interaction network map, only 2 types of sarcomas in the children small round blue cell tumors (SRBCTs) dataset are discussed in this paper. A backpropagation neural network was used to model the potential interaction between genes. The prediction weights and signal directions were used to model the strengths of the interaction signals and the direction of the interaction link between genes. The ANN model was validated using Monte Carlo cross-validation to minimize the risk of over-fitting and to optimize generalization ability of the model.
Results: Strong connection links on certain genes (TNNT1 and FNDC5 in rhabdomyosarcoma (RMS); FCGRT and OLFM1 in Ewing’s sarcoma (EWS)) suggested their potency as central hubs in the interconnection of genes with different functionalities. The results showed that the RMS patients in this dataset are likely to be congenital and at low risk of cardiomyopathy development. The EWS patients are likely to be complicated by EWS-FLI fusion and deficiency in various signaling pathways, including Wnt, Fas/Rho and intracellular oxygen.
Conclusions: The ANN network inference approach and the examination of identified genes in the published literature within the context of the disease highlights the substantial influence of certain genes in sarcomas
Dynamic Regulation of Tgf-B Signaling by Tif1γ: A Computational Approach
TIF1γ (Transcriptional Intermediary Factor 1 γ) has been implicated in
Smad-dependent signaling by Transforming Growth Factor beta (TGF-β).
Paradoxically, TIF1γ functions both as a transcriptional repressor or as an
alternative transcription factor that promotes TGF-β signaling. Using
ordinary differential-equation models, we have investigated the effect of
TIF1γ on the dynamics of TGF-β signaling. An integrative model that
includes the formation of transient TIF1γ-Smad2-Smad4 ternary complexes is
the only one that can account for TGF-β signaling compatible with the
different observations reported for TIF1γ. In addition, our model predicts
that varying TIF1γ/Smad4 ratios play a critical role in the modulation of
the transcriptional signal induced by TGF-β, especially for short
stimulation times that mediate higher threshold responses. Chromatin
immunoprecipitation analyses and quantification of the expression of TGF-β
target genes as a function TIF1γ/Smad4 ratios fully validate this
hypothesis. Our integrative model, which successfully unifies the seemingly
opposite roles of TIF1γ, also reveals how changing TIF1γ/Smad4 ratios
affect the cellular response to stimulation by TGF-β, accounting for a
highly graded determination of cell fate
Prognostic value of Dicer expression in human breast cancers and association with the mesenchymal phenotype
Background: Dicer, a ribonuclease, is the key enzyme required for the biogenesis of microRNAs and small interfering RNAs and is essential for both mammalian development and cell differentiation. Recent evidence indicates that Dicer may also be involved in tumourigenesis. However, no studies have examined the clinical significance of Dicer at both the RNA and the protein levels in breast cancer.Methods: In this study, the biological and prognostic value of Dicer expression was assessed in breast cancer cell lines, breast cancer progression cellular models, and in two well-characterised sets of breast carcinoma samples obtained from patients with long-term follow-up using tissue microarrays and quantitative reverse transcription-PCR.Results: We have found that Dicer protein expression is significantly associated with hormone receptor status and cancer subtype in breast tumours (ER P=0.008; PR P=0.019; cancer subtype P=0.023, luminal A P=0.0174). Dicer mRNA expression appeared to have an independent prognostic impact in metastatic disease (hazard ratio=3.36, P=0.0032). In the breast cancer cell lines, lower Dicer expression was found in cells harbouring a mesenchymal phenotype and in metastatic bone derivatives of a breast cancer cell line. These findings suggest that the downregulation of Dicer expression may be related to the metastatic spread of tumours.Conclusion: Assessment of Dicer expression may facilitate prediction of distant metastases for patients suffering from breast cancer
Post-transcriptional control during chronic inflammation and cancer: a focus on AU-rich elements
A considerable number of genes that code for AU-rich mRNAs including cytokines, growth factors, transcriptional factors, and certain receptors are involved in both chronic inflammation and cancer. Overexpression of these genes is affected by aberrations or by prolonged activation of several signaling pathways. AU-rich elements (ARE) are important cis-acting short sequences in the 3′UTR that mediate recognition of an array of RNA-binding proteins and affect mRNA stability and translation. This review addresses the cellular and molecular mechanisms that are common between inflammation and cancer and that also govern ARE-mediated post-transcriptional control. The first part examines the role of the ARE-genes in inflammation and cancer and sequence characteristics of AU-rich elements. The second part addresses the common signaling pathways in inflammation and cancer that regulate the ARE-mediated pathways and how their deregulations affect ARE-gene regulation and disease outcome
MLL cleavage occurs in approximately 5% of de novo acute myeloid leukemia, including in patients analyzed before treatment induction
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MLL Cleavage occurs in approximately 5% of de novo acute myeloid leukemia, including in patienst analyzed before treatment induction
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