Epithelial tissues are specialized to protect underlying tissues from environmental influences such as physical and chemical agents, infection by invasive microorganisms as well as water and heat loss. They are grouped into simple, transitional and stratified epithelia, which line the cavities and surfaces of structures throughout the body, and also form glands, separate compartments, regulate the exchange of molecules and act as sensory organs. Stratified epithelia such as the epidermis and the gingival and hard palate mucosa are in constant renewal, with cells proliferating in the lower layers, while the intermediate stratum and outermost layers undergo a tissue-specific process of differentiation to form a protective cornified barrier. This review focuses on a subclass of structural proteins, the small proline-rich proteins (SPRRs), which constitute cornified cell envelope precursors. Several studies have suggested that the SPRRs are related to increased epithelial proliferation and to malignant processes. Hence, we also review the literature for more extensive and in-depth profile of these proteins in cancer and other diseases. The understanding of SPRR functions has advanced in recent years, but many important questions about their role in pathophysiological processes remain unanswered, which stimulate new studies and approaches.
The heterogeneous nuclear ribonucleoproteins (hnRNPs) comprise a large family of proteins that play important roles in telomere biogenesis, DNA repair, cellular signaling, and the regulation of expression at both the transcriptional and translational levels. One of the most extensively studied hnRNP family members, hnRNP K, has been implicated in a variety of processes, including chromatin remodeling, transcription, splicing, and translation events. In this study, we analyzed processed HNRPK pseudogenes (HNRPK psi1-psi4) and coding sequences. HNRPK pseudogenes are apparently nonfunctional, and psi1 might correspond to transcripts from an ancestral gene. Phylogenetic and sequence analyses suggest that HNRP genes arose by duplication, and that new structural and sequence features expanded the functions of hnRNPs. The expression analysis of hnRNP K isoforms showed that isoform a is expressed in normal testis and in non-small cell lung cancer (NCI-H1155 NSCLC cell line), although the shorter isoform (isoform b) is expressed in different tumor cell lines (IM9 B-lymphoblastoid, Hs578T human breast cancer epithelial, T98G human glioma cell lines). Using molecular modeling, we obtained KH1 and KH3 models, which pointed to important residues for DNA-protein binding and no structural differences between isoforms a and b. To our knowledge, this is the first phylogenetic study including vertebrate HNRP genes and HNRPK pseudogenes, and the first report comparing the KH1 and KH3 domains of isoforms a and b of the hnRNP K protein. New investigations in tumor samples must be done to validate the differential expression observed here. The results shown are important because the hnRNP K protein might represent a new target for pharmacologic intervention in virus replication and cancer.
Aos prof. Dr. Sandro Valentini e Prof. Cleslei Zanelli pela colaboração e por permitir a utilização de seu laboratório e infra-estrutura para realização de alguns experimentos. Ao prof. Dr. Maurício Lacerda Nogueira, pela colaboração, conversas e discussões sobre alguns experimentos. Suas idéias colaboraram muito para o meu trabalho! À Profa. Dra. Andréia Machado Leopoldino e a Dra. Lays Martin Sobral pela colaboração e ajuda nos experimentos de invasão e migração.
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