Morena Catillo scite author profile

Alterations in the abundance or activities of alternative splicing regulators generate alternatively spliced variants that contribute to multiple aspects of tumor establishment, progression and resistance to therapeutic treatments. Notably, many cancer-associated genes are regulated through alternative splicing suggesting a significant role of this post-transcriptional regulatory mechanism in the production of oncogenes and tumor suppressors. Thus, the study of alternative splicing in cancer might provide a better understanding of the malignant transformation and identify novel pathways that are uniquely relevant to tumorigenesis. Understanding the molecular underpinnings of cancer-associated alternative splicing isoforms will not only help to explain many fundamental hallmarks of cancer, but will also offer unprecedented opportunities to improve the efficacy of anti-cancer treatments.

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The alternative splicing side of cancer

Biamonti

Catillo

Pignataro

et al. 2014

Seminars in Cell & Developmental Biology

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hnRNP H1 and intronic G runs in the splicing control of the human rpL3 gene

Russo¹,

Siciliano

Catillo

et al. 2010

Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanism

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Autoregulatory circuit of human rpL3 expression requires hnRNP H1, NPM and KHSRP

Russo

Catillo

Esposito

et al. 2011

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Alternative pre-mRNA splicing (AS) is a major mechanism that allows proteomic variability in eukaryotic cells. However, many AS events result in mRNAs containing a premature termination codon, which are degraded by nonsense-mediated mRNA decay (NMD) pathway. We have previously demonstrated that human rpL3 autoregulates its expression through the association of AS with NMD. In fact, overexpression of rpL3 promotes downregulation of canonical splicing and upregulation of alternative splicing that produces an NMD-targeted mRNA isoform. The result of these events is a decreased production of rpL3. We have also identified heterogeneous nuclear ribonucleoprotein (hnRNP) H1 as a splicing factor involved in the regulation of rpL3 alternative splicing and identified its regulatory cis-elements within intron 3 transcript. Here, we report that NPM and KHSRP are two newly identified proteins involved in the regulation of rpL3 gene expression via AS-NMD. We demonstrate that hnRNP H1, KHSRP and NPM can be found associated, and present also in ribonucleoproteins (RNPs) including rpL3 and intron 3 RNA in vivo, and describe protein–protein and RNA–protein interactions. Moreover, our data provide an insight on the crucial role of hnRNP H1 in the regulation of the alternative splicing of the rpL3 gene.

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Morena Catillo

Human rpL3 induces G₁/S arrest or apoptosis by modulating p21^waf1/cip1 levels in a p53-independent manner

Oncogenic Alternative Splicing Switches: Role in Cancer Progression and Prospects for Therapy

The alternative splicing side of cancer

hnRNP H1 and intronic G runs in the splicing control of the human rpL3 gene

Autoregulatory circuit of human rpL3 expression requires hnRNP H1, NPM and KHSRP

Contact Info

Product

Resources

About

Morena Catillo

Human rpL3 induces G₁/S arrest or apoptosis by modulating p21waf1/cip1 levels in a p53-independent manner

Oncogenic Alternative Splicing Switches: Role in Cancer Progression and Prospects for Therapy

The alternative splicing side of cancer

hnRNP H1 and intronic G runs in the splicing control of the human rpL3 gene

Autoregulatory circuit of human rpL3 expression requires hnRNP H1, NPM and KHSRP

Contact Info

Product

Resources

About

Human rpL3 induces G₁/S arrest or apoptosis by modulating p21^waf1/cip1 levels in a p53-independent manner