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Research Project
Biosystems & Integrative Sciences Institute
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Publications
Pro-Inflammatory Cytokines Trigger the Overexpression of Tumour-Related Splice Variant RAC1B in Polarized Colorectal Cells
Publication . Pereira, Joana F. S.; Bessa, Cláudia; Matos, Paulo; Jordan, Peter
Simple Summary: Tumours are now known to develop more quickly when the tumour cell mass is located in a tissue that shows signs of chronic inflammation. Under such conditions, inflammatory cells from the surrounding tumour microenvironment provide survival signals to which cancer cells respond. We have previously found that some colorectal tumours overexpress the protein RAC1B that sustains tumour cell survival. Here we used a colon mucosa-like in vitro cell model and found that the presence of cancer-associated fibroblasts and pro-inflammatory macrophages stimulated colorectal cells to increase their RAC1B levels. Under these conditions, the secreted survival signals were analysed, and interleukin-6 identified as the main trigger for the increase in RAC1B levels. The results contribute to understand the tumour-promoting effect of inflammation at the molecular level.
LDLR variants functional characterization: Contribution to variant classification
Publication . Alves, Ana Catarina; Azevedo, Sílvia; Benito-Vicente, Asier; Graça, Rafael; Galicia-Garcia, Unai; Barros, Patrícia; Jordan, Peter; Martin, Cesar; Bourbon, Mafalda
Background and aims: Familial hypercholesterolaemia (FH) is an autosomal disorder of lipid metabolism presenting with increased cardiovascular risk. LDLR mutations are the cause of disease in 90% of the cases but functional studies have only been performed for about 15% of all LDLR variants. In the Portuguese Familial Hypercholesterolemia Study (PFHS), 142 unique LDLR alterations were identified and 44 (30%) lack functional characterization. The aim of the present work is to increase evidence for variant classification by performing functional characterization of 13 LDLR missense alterations found in Portugal and in 20 other countries.
Methods: Different LDLR mutants were generated by site-directed mutagenesis and expressed in CHO-ldlA7 cells lacking endogenous expression of LDLR. To determine the effects of alterations on LDLR function, cell surface expression, binding and uptake of FITC-LDL were assessed by flow cytometry and Western blot.
Results: Of the 13 variants studied 7 were shown to affect LDLR function - expression, binding or uptake, with rates lower than 60%: p.(Cys184Tyr), p.(Gly207_Ser213del); p.(His211Asp); p.(Asp221Tyr); p.(Glu288Lys); p.(Gly592Glu) and p.(Asp601Val)). The remaining 6 variants do not alter the LDLR function.
Conclusions: These studies contributed to an update of these variants classification: from the 9 variants classified as variants of unknown significance, 7 have reached now a final classification and 3 variants have improved classification from likely pathogenic to pathogenic. In Portugal, an additional 55 patients received an FH definite diagnosis thanks to these studies. Since only likely pathogenic and pathogenic variants are clinically actionable, this work shows the importance of functional studies for variant classification.
A Signaling View into the Inflammatory Tumor Microenvironment
Publication . Pereira, Joana F. S.; Jordan, Peter; Matos, Paulo
The development of tumors requires an initiator event, usually exposure to DNA damaging
agents that cause genetic alterations such as gene mutations or chromosomal abnormalities, leading
to deregulated cell proliferation. Although the mere stochastic accumulation of further mutations
may cause tumor progression, it is now clear that an inflammatory microenvironment has a major
tumor-promoting influence on initiated cells, in particular when a chronic inflammatory reaction
already existed before the initiated tumor cell was formed. Moreover, inflammatory cells become
mobilized in response to signals emanating from tumor cells. In both cases, the microenvironment
provides signals that initiated tumor cells perceive by membrane receptors and transduce via downstream
kinase cascades to modulate multiple cellular processes and respond with changes in cell gene
expression, metabolism, and morphology. Cytokines, chemokines, and growth factors are examples
of major signals secreted by immune cells, fibroblast, and endothelial cells and mediate an intricate
cell-cell crosstalk in an inflammatory microenvironment, which contributes to increased cancer
cell survival, phenotypic plasticity and adaptation to surrounding tissue conditions. Eventually,
consequent changes in extracellular matrix stiffness and architecture, coupled with additional genetic
alterations, further fortify the malignant progression of tumor cells, priming them for invasion and
metastasis. Here, we provide an overview of the current knowledge on the composition of the inflammatory
tumor microenvironment, with an emphasis on the major signals and signal-transducing
events mediating different aspects of stromal cell-tumor cell communication that ultimately lead to
malignant progression.
Nonsense-mediated RNA decay and its bipolar function in cancer
Publication . Nogueira, Gonçalo; Fernandes, Rafael; García-Moreno, Juan F; Romão, Luísa
Nonsense-mediated decay (NMD) was first described as a quality-control mechanism that targets and rapidly degrades aberrant mRNAs carrying premature termination codons (PTCs). However, it was found that NMD also degrades a significant number of normal transcripts, thus arising as a mechanism of gene expression regulation. Based on these important functions, NMD regulates several biological processes and is involved in the pathophysiology of a plethora of human genetic diseases, including cancer. The present review aims to discuss the paradoxical, pro- and anti-tumorigenic roles of NMD, and how cancer cells have exploited both functions to potentiate the disease. Considering recent genetic and bioinformatic studies, we also provide a comprehensive overview of the present knowledge of the advantages and disadvantages of different NMD modulation-based approaches in cancer therapy, reflecting on the challenges imposed by the complexity of this disease. Furthermore, we discuss significant advances in the recent years providing new perspectives on the implications of aberrant NMD-escaping frameshifted transcripts in personalized immunotherapy design and predictive biomarker optimization. A better understanding of how NMD differentially impacts tumor cells according to their own genetic identity will certainly allow for the application of novel and more effective personalized treatments in the near future.
Nonsense suppression therapies in human genetic diseases
Publication . Martins-Dias, Patrícia; Romão, Luísa
About 11% of all human disease-associated gene lesions are nonsense mutations, resulting in the introduction of an in-frame premature translation-termination codon (PTC) into the protein-coding gene sequence. When translated, PTC-containing mRNAs originate truncated and often dysfunctional proteins that might be non-functional or have gain-of-function or dominant-negative effects. Therapeutic strategies aimed at suppressing PTCs to restore deficient protein function—the so-called nonsense suppression (or PTC readthrough) therapies—have the potential to provide a therapeutic benefit for many patients and in a broad range of genetic disorders, including cancer. These therapeutic approaches comprise the use of translational readthrough-inducing compounds that make the translational machinery recode an in-frame PTC into a sense codon. However, most of the mRNAs carrying a PTC can be rapidly degraded by the surveillance mechanism of nonsense-mediated decay (NMD), thus decreasing the levels of PTC-containing mRNAs in the cell and their availability for PTC readthrough. Accordingly, the use of NMD inhibitors, or readthrough-compound potentiators, may enhance the efficiency of PTC suppression. Here, we review the mechanisms of PTC readthrough and their regulation, as well as the recent advances in the development of novel approaches for PTC suppression, and their role in personalized medicine.
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Funding agency
Fundação para a Ciência e a Tecnologia
Funding programme
6817 - DCRRNI ID
Funding Award Number
UID/Multi/04046/2019