13 resultados para HUMAN-DISEASE

em DigitalCommons@The Texas Medical Center


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In this study, the evolutionary relationship between human chromosome 16p12-p13 and mouse chromosomes was investigated by determining the order of marker loci in the region and then identifying the chromosomal locations of the homologous loci in mice. Eighteen genes from human 16 were mapped to fifteen subchromosomal regions by a variety of mapping approaches.^ Thirteen of the genes were mapped in the mouse. Linkage analysis with backcross mice and segregation analysis in a mouse - Chinese Hamster Ovary (CHO) somatic cell hybrid panel informative for different regions of mouse genome were used. The results assigned the thirteen genes to three different mouse chromosomes.^ A group of six genes on mouse 16 was found to be closely linked to Scid. The order of Myh11 and Mrp remains ambiguous since no recombination was detected in backcross analysis. Their relative position in human is also uncertain since they were shown to be very close to each other. For the other mouse loci, an unambiguous gene order could be determined and was found to be identical to that in human. Therefore, they comprise a new conserved linkage group between the two species. The orientation of the group was inverted relative to the centromeres, i.e. the proximal loci in one species become distal in another. The size of the group was estimated to be from 4.4 to 8 Mb and 10 to 32 cM in human. In mouse, it was about 21 cM in the backcross analysis. The two boundaries of the conserved linkage were defined within a 1 Mb range. It is now possible to predict the locations of mouse homologs for some human disease genes based on their locations on human 16p.^ The six human 16p genes that map to MMU7 showed a different gene order in mouse than in human. No recombination was found between Crym and Umod while Crym was distal to D16S79A and proximal to D16S92. The location of Stp and Cdr2 with respect to the above four loci was not determined since they were not mapped in the same set of backcross mice. These genes greatly expanded an existing conserved synteny group between the human 16p12-p13 region and the MMU7. It now consists of eleven loci that span a region of probably more than 10 Mb in human. The gene order derived from this study provided further evidence for chromosomal rearrangements within the conserved synteny. (Abstract shortened by UMI.) ^

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Molluscan preparations have yielded seminal discoveries in neuroscience, but the experimental advantages of this group have not, until now, been complemented by adequate molecular or genomic information for comparisons to genetically defined model organisms in other phyla. The recent sequencing of the transcriptome and genome of Aplysia californica, however, will enable extensive comparative studies at the molecular level. Among other benefits, this will bring the power of individually identifiable and manipulable neurons to bear upon questions of cellular function for evolutionarily conserved genes associated with clinically important neural dysfunction. Because of the slower rate of gene evolution in this molluscan lineage, more homologs of genes associated with human disease are present in Aplysia than in leading model organisms from Arthropoda (Drosophila) or Nematoda (Caenorhabditis elegans). Research has hardly begun in molluscs on the cellular functions of gene products that in humans are associated with neurological diseases. On the other hand, much is known about molecular and cellular mechanisms of long-term neuronal plasticity. Persistent nociceptive sensitization of nociceptors in Aplysia displays many functional similarities to alterations in mammalian nociceptors associated with the clinical problem of chronic pain. Moreover, in Aplysia and mammals the same cell signaling pathways trigger persistent enhancement of excitability and synaptic transmission following noxious stimulation, and these highly conserved pathways are also used to induce memory traces in neural circuits of diverse species. This functional and molecular overlap in distantly related lineages and neuronal types supports the proposal that fundamental plasticity mechanisms important for memory, chronic pain, and other lasting alterations evolved from adaptive responses to peripheral injury in the earliest neurons. Molluscan preparations should become increasingly useful for comparative studies across phyla that can provide insight into cellular functions of clinically important genes.

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Extracellular matrix (ECM) is a component of a variety of organisms that provides both structural support and influence upon the cells it surrounds. The importance of the ECM is becoming more apparent as matrix defects are linked to human disease. In this study, the large, extracellular matrix heparan sulfate proteoglycan, perlecan (Pln) is examined in two systems. First, the role of Pln in the interaction between a blastocyst and uterine epithelial cells is investigated. In mice, blastocyst attachment and implantation occurs at approximately d 4.5 post coitus. In addition, a delayed implantation model has been used to distinguish between the response of the blastocyst to that of hatching and of becoming attachment competent. ^ The second series of experiments described in this study focuses on the process of chondrogenesis in mice. Pln, commonly expressed with other basement membrane (BM) proteins, was found to be expressed in cartilaginous tissue without other BM proteins. This unusual expression pattern led to further study and the development of an in vitro chondrogenesis assay using the mouse embryonic fibroblast cell line, C3H/10T1/2. When cultured on Pln in vitro, these cells form aggregates and express the cartilage proteins, collagen type II and aggrecan. In examining the participation of the heparan sulfate (HS) chains in this process, the proteoglycan was enzymatically digested to remove the HS chains before the initiation of 10T1/2 cell culture. After digestion, the ability of Pln to stimulate aggregate formation was greatly diminished. Thus, the HS chains participate in the cell induction process. To determine which domain of Pln might be responsible for this activity, recombinant fragments of Pin were used in the cell culture assay. Of all recombinant protein fragments tested, only the domain including the HS chains, domain 1, was able to initiate the morphological change exhibited by the 10T1/2 cells. Similar to native Pln, when HS chains were removed from domain I, chondrogenic activity was abolished. A variant of domain I carrying both HS and chondroitin sulfate (CS) chains retained activity when only HS chains were removed. When both HS and CS chains were removed, then activity was lost. ^ The ability to rapidly stimulate differentiation of 10T1/2 cells in vitro may lead to better control of chondrogenesis in vitro and in vivo, providing better understanding and manipulation of the chondrogenic process. This greater understanding may have benefits for study of cartilage and bone diseases and subsequent treatment options. (Abstract shortened by UMI.)^

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Deficiency of the enzyme adenosine deaminase (ADA) results in severe lymphopenia in humans. Mice with an inactivating mutation in the ADA gene also exhibit profound lymphopenia, as well as pulmonary insufficiency and ribcage abnormalities. In fact, the mouse model has a phenotype that is remarkably similar to that of the human disease, making the mice valuable tools for unraveling the mechanism of lymphocyte destruction in absence of this housekeeping gene. T cell deficiency in ADA deficiency has been extensively studied by others, revealing a block in early thymocyte development. In contrast, our studies revealed that early B cell development in the bone marrow is normal. ADA-deficient mice, however, exhibit profound defects in germinal center formation, preventing antigen-dependent B cell maturation in the spleen. ADA-deficient spleen B cells display significant defects in proliferation and activation signaling, and produce more IgM than their normal counterparts, suggesting that extrafollicular plasmablasts are overrepresented. B cells from ADA-deficient mouse spleens undergo apoptosis more readily than those from normal mouse spleens. Levels of ADA's substrates, adenosine and 2′-deoxyadenosine, are elevated in both bone marrow and spleen in ADA-deficient mice. S ′-adenosyihomoeysteine hydrolase (SAH hydrolase) activity is significantly inhibited in both locales, as well. dATP levels, though, are only elevated in spleen, where B cell development is impaired, and not in bone marrow, where B cell ontogeny is normal. This finding points to dATP as the causative agent of lymphocyte death in ADA deficiency. ADA deficiency results in inhibition of the enzyme ribonucleotide reductase, thereby depleting nucleoside pools needed for DNA repair. Another mouse model that lacks a functional gene encoding a protein involved in DNA repair and/or cell cycle checkpoint regulation, p53-binding protein 1, exhibits blocks in T and B cell development that are similar to those seen in ADA-deficient mice. Unraveling the mechanisms of lymphocyte destruction in ADA deficiency may further understanding of lymphocyte biology, facilitate better chemotherapeutic treatment for lymphoproliferative diseases, and improve gene and enzyme therapy regimens attempted for ADA deficiency. ^

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Analysis of the human genome has revealed that more than 74% of human genes undergo alternative RNA splicing. Aberrations in alternative RNA splicing have been associated with several human disorders, including cancer. ^ We studied the aberrant expression of alternative RNA splicing isoforms of the Fibroblast Growth Factor Receptor 1 (FGFR1) gene in a human glioblastoma cancer model. Normal glial cells express the FGFR1α, which contains three extracellular domains. In tumors the most abundant isoform is the FGFR1β, which lacks the first extracellular domain due to the skipping of a single exon, termed alpha. The skipping of the α-exon is regulated by two intronic silencing sequences within the precursor mRNA. Since we observed no mutations on these elements in tumor cells, we hypothesized that the over-expression of regulatory proteins that recognize these sequences is responsible for the aberrant expression of splicing isoforms. Hence, we blocked the formation of protein complexes on the ISS using antisense RNA oligonucleotides in vitro. We also evaluated the impact of the ISS antisense oligonucleotides on the endogenous FGFR1 splicing, in a glioblastoma cell model. By targeting intronic regulatory elements we were able to increase the level of alpha exon inclusion up to 90% in glioblastoma cells. The effect was dose dependent, sequence specific and reproducible in glioblastoma and other cancer cells, which also exhibit an alpha exon skipping phenotype. Targeting FGFR1 endogenous ISS1 and ISS2 sequences did not have an additive or synergistic effect, which suggest a regulatory splicing mechanism that requires the interaction of complexes formed on these elements. An increase in the levels of the FGFR1α isoform resulted in a reduction in cell invasiveness. Also, a significant increase in the levels of caspase 3/7 activities, which is indicative of an elevation in apoptosis levels, suggests that expression of FGFR1β might be relevant for tumor survival. These studies demonstrate that it is possible to prevent aberrant expression of exon skipping events through the targeting of intronic regulatory elements, providing an important new therapeutic tool for the correction of human disease caused by alternative RNA splicing. ^

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While there is considerable information on the molecular aberrations associated with the development of endometrial cancer, very little is known of changes in gene expression associated with its antecedent premalignant condition, endometrial hyperplasia. In order to address this, we have compared the level of expression of components of the IGF-I signaling pathway in human endometrial hyperplasia to their level of expression in both the normal pre-menopausal endometrium and endometrial carcinoma. We have also characterized the molecular characteristics of endometrial hyperplasia as it occurs in a murine model of hormone-dependent tumorigenesis of the female reproductive tract. ^ There was a significant and selective increase in the expression of the IGF-I Receptor (IGF-IR) in both human hyperplasia and carcinoma as compared to the normal endometrium. The receptor was also activated, as judged by increased tyrosine phosphorylation. In addition, in hyperplasia and carcinoma there is activation of the downstream component Akt. The expression of the PTEN tumor suppressor is decreased in a subset of subjects with hyperplasia and in all of the carcinomas. The simultaneous loss of PTEN expression and increased IGF-IR activation in the hyperplastic endometrium was associated with an increased incidence of endometrial carcinoma elsewhere within the uterus. In the rodent hyperplasia, there was a significant increase in the expression and activation of Akt that appears to be attributable to a marked increase in the expression of IGF-II. ^ Our studies have demonstrated the pathologic proliferation of both the human and rodent endometrium is linked to a marked activation of the Akt pathway. However the cause of this dysregulation is different in the human disease and the animal model. In rodents, hyperplasia is linked to increased expression of one of the ligands of the IGF-IR, IGF-II. In humans the IGF-I receptor itself is upregulated and activated. Additional activation of the Akt pathway via the suppression of PTEN activity, results in conditions that are associated with the marked increase in the probability of developing endometrial cancer. Our data suggests that increased activity of the IGF-I pathway plays the key role in the hyperproliferative state characteristic of endometrial hyperplasia and cancer.^

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Lung cancer is a devastating disease with very poor prognosis. The design of better treatments for patients would be greatly aided by mouse models that closely resemble the human disease. The most common type of human lung cancer is adenocarcinoma with frequent metastasis. Unfortunately, current models for this tumor are inadequate due to the absence of metastasis. Based on the molecular findings in human lung cancer and metastatic potential of osteosarcomas in mutant p53 mouse models, I hypothesized that mice with both K-ras and p53 missense mutations might develop metastatic lung adenocarcinomas. Therefore, I incorporated both K-rasLA1 and p53RI72HΔg alleles into mouse lung cells to establish a more faithful model for human lung adenocarcinoma and for translational and mechanistic studies. Mice with both mutations ( K-rasLA1/+ p53R172HΔg/+) developed advanced lung adenocarcinomas with similar histopathology to human tumors. These lung adenocarcinomas were highly aggressive and metastasized to multiple intrathoracic and extrathoracic sites in a pattern similar to that seen in lung cancer patients. This mouse model also showed gender differences in cancer related death and developed pleural mesotheliomas in 23.2% of them. In a preclinical study, the new drug Erlotinib (Tarceva) decreased the number and size of lung lesions in this model. These data demonstrate that this mouse model most closely mimics human metastatic lung adenocarcinoma and provides an invaluable system for translational studies. ^ To screen for important genes for metastasis, gene expression profiles of primary lung adenocarcinomas and metastases were analyzed. Microarray data showed that these two groups were segregated in gene expression and had 79 highly differentially expressed genes (more than 2.5 fold changes and p<0.001). Microarray data of Bub1b, Vimentin and CCAM1 were validated in tumors by quantitative real-time PCR (QPCR). Bub1b , a mitotic checkpoint gene, was overexpressed in metastases and this correlated with more chromosomal abnormalities in metastatic cells. Vimentin, a marker of epithelial-mesenchymal transition (EMT), was also highly expressed in metastases. Interestingly, Twist, a key EMT inducer, was also highly upregulated in metastases by QPCR, and this significantly correlated with the overexpression of Vimentin in the same tumors. These data suggest EMT occurs in lung adenocarcinomas and is a key mechanism for the development of metastasis in K-ras LA1/+ p53R172HΔg/+ mice. Thus, this mouse model provides a unique system to further probe the molecular basis of metastatic lung cancer.^

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There are many diseases associated with the expansion of DNA repeats in humans. Myotonic dystrophy type 2 is one of such diseases, characterized by expansions of a (CCTG)•(CAGG) repeat tract in intron 1 of zinc finger protein 9 (ZNF9) in chromosome 3q21.3. The DM2 repeat tract contains a flanking region 5' to the tract that consists of a polymorphic repetitive sequence (TG)14-25(TCTG)4-11(CCTG) n. The (CCTG)•(CAGG) repeat is typically 11-26 repeats in persons without the disease, but can expand up to 11,000 repeats in affected individuals, which is the largest expansion seen in DNA repeat diseases to date. This DNA tract remains one of the least characterized disease-associated DNA repeats, and mechanisms causing the repeat expansion in humans have yet to be elucidated. Alternative, non B-DNA structures formed by the expanded repeats are typical in DNA repeat expansion diseases. These sequences may promote instability of the repeat tracts. I determined that slipped strand structure formation occurs for (CCTG)•(CAGG) repeats at a length of 42 or more. In addition, Z-DNA structure forms in the flanking human sequence adjacent to the (CCTG)•(CAGG) repeat tract. I have also performed genetic assays in E. coli cells and results indicate that the (CCTG)•(CAGG) repeats are more similar to the highly unstable (CTG)•(CAG) repeat tracts seen in Huntington's disease and myotonic dystrophy type 1, than to those of the more stable (ATTCT)•(AGAAT) repeat tracts of spinocerebellar ataxia type 10. This instability, however, is RecA-independent in the (CCTG)•(CAGG) and (ATTCT)•(AGAAT) repeats, whereas the instability is RecA-dependent in the (CTG)•(CAG) repeats. Structural studies of the (CCTG)•(CAGG) repeat tract and the flanking sequence, as well as genetic selection assays may reveal the mechanisms responsible for the repeat instability in E. coli, and this may lead to a better understanding of the mechanisms contributing to the human disease state. ^

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The discovery of expanded simple repeated sequences causing or associated with human disease has lead to a new area of research involved in the elucidation of how the expanded repeat causes disease and how the repeat becomes unstable. ^ To study the genetic basis of the (CTG)n repeat instability in the DMPK gene in myotonic dystrophy (DM1) patients, somatic cell hybrids were constructed between the lymphocytes of DM1 patients and a variety of Chinese hamster ovary (CHO) cell DNA repair gene deficient mutants. By using small pool PCR (SP-PCR), the instability of the (CTG)n can be quantitated for both the frequency and sizes of length change mutations. ^ Additional SP-PCR analysis on 2/11 subclones generated from this original hybrid showed a marked increase in large repeat deletions, ∼50%. A bimodal distribution of repeats was seen around the progenitor allele and at a large deleted product (within the normal range) with no intermediate products present. ^ To determine if the repair capacity of the CHO cell led to a mutator phenotype in the hamster and hybrid clones, SP-PCR was also done on 3 hamster microsatellites in a variety of hamster cell backgrounds. No variant alleles were seen in over 2500 genome equivalents screened. ^ Human-hamster hybrids have long been shown to be chromosomally unstable, yet information about the stability of repeated sequences was not known. To test if repeat instability was associated with either intact or non-intact human chromosomes, more than 300 microsatellite repeats on 13 human chromosomes (intact and non-intact) were analyzed in eight hybrid cells. No variants were seen between the hybrid and patient alleles in the hybrids. ^ To identify whether DM1 patients have a previously undetected level of genome wide instability or if the instability is truly locus specific, SP-PCR was done on 6 human microsatellites within the patient used to make the hybrid cells. No variants were seen in over 1000 genomes screened. ^ These studies show that the somatic cell hybrid approach is a genetically stable system that allows for the determination of factors that could lead to changes in microsatellite instability. It also shows that there is something inherent about the DM1 expanded (CTG)n repeat that it is solely targeted by, as of yet, and unknown mechanism that causes the repeat to be unstable. (Abstract shortened by UMI.)^

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Chagas’ disease, also called American Trypanosomiasis, is a vector-borne disease caused by the protozoan parasite Trypanosoma cruzi. T. cruzi is spread by triatomine insects, commonly referred to as ‘kissing bugs.’ After the insect takes a blood meal from its animal or human host, it usually defecates near the bite wound. The parasite is present in the feces, and when rubbed into the bite wound or mucous membranes by the host, infection ensues. Chagas’ disease is highly endemic in Central and South America where it originated. Many people in these endemic areas live in poor conditions surrounded by animals, mainly dogs, that can serve as a possible link to human infection. In Chagas’ endemic countries, dogs can be used as a sentinel to infer risk for human infection. In Texas, the prevalence of Chagas’ and risk for human infection is largely unknown. This study aimed to determine the prevalence of Chagas’ disease in shelter dogs in Houston, Texas and the Rio Grande Valley region by using an immunochromatographic assay (Chagas’ Stat-Pak) to test for the presence of T. cruzi antibodies. Of the 822 samples tested, 26 were found to be positive (3.2%). In both locations, Chagas’ prevalence increased over time. This study found that dogs, especially strays, can serve as sentinels for disease activity. Public health authorities can implement this strategy to understand the level of Chagas’ activity in a defined geographic area and prevent human infection.^