Alterações genéticas na doença de Alzheimer

With the increase of the life expectancy that is seen today in the entire planet, a larger number of individuals reaches an advanced age when the manifestation of neurodegenerative illnesses is more frequent. Among these, the Alzheimer's disease (AD) is the most common cause of dementia. The most substantial findings in the brains of patients suffering from AD are the senile plaques, the neurofibrillary tangles and an extensive neuronal loss. However, a general deficiency of predictive biological markers for AD impairs the correct diagnosis and the better understanding of the disease. Studies of molecular genetics allowed the identification of four genes that are consistently linked to AD: APP, apoE, PSEN1 and PSEN2. However, diverse studies demonstrate that other genes also play important roles in the development of AD, strengthening the notion that it is a polygenic illness. Modern large-scale techniques can now be applied in the study of AD, permitting the study of a vast population of genes or molecular alterations that can explain the origin of the illness, offering the basis for the understanding of the pathogenesis of AD and enabling the delineation of new and more efficient approaches to treat and to prevent the sprouting of the disease.Com o aumento da expectativa de vida, visto hoje em todo o planeta, um maior número de indivíduos alcança uma idade avançada em que a manifestação de doenças neurodegenerativas é mais freqüente. Entre essas, a doença de Alzheimer (DA) é a causa mais freqüente de demência. Os achados mais marcantes na DA, em cérebros de pacientes acometidos pela doença, são as placas senis, os emaranhados neurofibrilares e a extensa perda neuronal. No entanto, existe uma carência generalizada de marcadores biológicos preditivos ou com valor diagnóstico para a DA. Estudos de genética molecular permitiram identificar quatro genes consistentemente associados com o maior risco de desenvolvimento da doença: APP, apoE, PSEN1 e PSEN2. No entanto, inúmeros estudos apontam para papel importante de outros genes, fortalecendo a hipótese de uma doença poligênica e multifatorial. Neste sentido, novas abordagens de estudo têm um futuro promissor, podendo indicar uma vasta população de genes ou alterações moleculares que possam explicar o surgimento da doença, vindo a fornecer as bases para a compreensão da DA e também para o delineamento de novas e mais eficazes abordagens de tratamento ou prevenção da doença

A quantitative view of the transcriptome of Schistosoma mansoni adult-worms using SAGE

<p>Abstract</p> <p>Background</p> <p>Five species of the genus Schistosoma, a parasitic trematode flatworm, are causative agents of Schistosomiasis, a disease that is endemic in a large number of developing countries, affecting millions of patients around the world. By using SAGE (Serial Analysis of Gene Expression) we describe here the first large-scale quantitative analysis of the Schistosoma mansoni transcriptome, one of the most epidemiologically relevant species of this genus.</p> <p>Results</p> <p>After extracting mRNA from pooled male and female adult-worms, a SAGE library was constructed and sequenced, generating 68,238 tags that covered more than 6,000 genes expressed in this developmental stage. An analysis of the ordered tag-list shows the genes of F10 eggshell protein, pol-polyprotein, HSP86, 14-3-3 and a transcript yet to be identified to be the five top most abundant genes in pooled adult worms. Whereas only 8% of the 100 most abundant tags found in adult worms of S. mansoni could not be assigned to transcripts of this parasite, 46.9% of the total ditags could not be mapped, demonstrating that the 3 sequence of most of the rarest transcripts are still to be identified. Mapping of our SAGE tags to S. mansoni genes suggested the occurrence of alternative-polyadenylation in at least 13 gene transcripts. Most of these events seem to shorten the 3 UTR of the mRNAs, which may have consequences over their stability and regulation.</p> <p>Conclusion</p> <p>SAGE revealed the frequency of expression of the majority of the S. mansoni genes. Transcriptome data suggests that alternative polyadenylation is likely to be used in the control of mRNA stability in this organism. When transcriptome was compared with the proteomic data available, we observed a correlation of about 50%, suggesting that both transcriptional and post-transcriptional regulation are important for determining protein abundance in S. mansoni. The generation of SAGE tags from other life-cycle stages should contribute to reveal the dynamics of gene expression in this important parasite.</p