Considering epidemiological,genetic and immunological data,we can conclude that the inflammatory bowel diseases are heterogeneous disorders of multifactorial etiology in which hereditability and environment interact t...Considering epidemiological,genetic and immunological data,we can conclude that the inflammatory bowel diseases are heterogeneous disorders of multifactorial etiology in which hereditability and environment interact to produce the disease.It is probable that patients have a genetic predisposition for the development of the disease coupled with disturbances in immunoregulation.Several genes have been so far related to the diagnosis of Crohn's disease.Those genes are related to innate pattern recognition receptors,to epithelial barrier homeostasis and maintenance of epithelial barrier integrity,to autophagy and to lymphocyte differentiation.So far,the most strong and replicated associations with Crohn's disease have been done with NOD2,IL23R and ATG16L1 genes.Many genes have so far been implicated in prognosis of Crohn's disease and many attempts have been made to classify genetic profiles in Crohn's disease.CARD15 seems not only a susceptibility gene,but also a disease-modifier gene for Crohn's disease.Enriching our understanding on Crohn's disease genetics is important but when combining genetic data with functional data the outcome could be of major importance to clinicians.展开更多
Background Hereditary spastic paraplegia (HSP) is a group of inherited neurodegenerative disorders with the shared characteristics of slowly progressive spasticity and weakness of the lower limbs. Thirteen loci for ...Background Hereditary spastic paraplegia (HSP) is a group of inherited neurodegenerative disorders with the shared characteristics of slowly progressive spasticity and weakness of the lower limbs. Thirteen loci for autosomal dominant HSP have been mapped. Methods A Chinese family with HSP was found in the Shandong province and Inner Mongolia Autonomous Region of China and genomic DNA of all 19 family members was isolated. After exclusion of known autosomal dominant loci, a genome wide scan and linkage analysis were performed. Results The known autosomal dominant loci of SPG3A, SPG4, SPG6, SPG8, SPG9, SPG10, SPG12, SPG13, SPG17, SPG19, SPG29, SPG31 and SPG33 were excluded by linkage analysis. The results of a genome wide scan demonstrated candidate linkage to a locus on chromosome 11 p14.1-p11.2, over an 18.88 cM interval between markers D11 S1324 and D11 S1933. A maximal, two point LOD score of 2.36 for marker D11S935 at a recombination fraction (e) of 0 and a multipoint LOD score of 2.36 for markers D11S1776, D11S1751, D11S1392, D11S4203, D11S935, D11S4083, and D11S4148 at θ=0, suggest linkage to this locus. Conclusion The HSP neuropathy in this family may represent a novel genetic entity, which will facilitate discovery of this causative gene.展开更多
文摘Considering epidemiological,genetic and immunological data,we can conclude that the inflammatory bowel diseases are heterogeneous disorders of multifactorial etiology in which hereditability and environment interact to produce the disease.It is probable that patients have a genetic predisposition for the development of the disease coupled with disturbances in immunoregulation.Several genes have been so far related to the diagnosis of Crohn's disease.Those genes are related to innate pattern recognition receptors,to epithelial barrier homeostasis and maintenance of epithelial barrier integrity,to autophagy and to lymphocyte differentiation.So far,the most strong and replicated associations with Crohn's disease have been done with NOD2,IL23R and ATG16L1 genes.Many genes have so far been implicated in prognosis of Crohn's disease and many attempts have been made to classify genetic profiles in Crohn's disease.CARD15 seems not only a susceptibility gene,but also a disease-modifier gene for Crohn's disease.Enriching our understanding on Crohn's disease genetics is important but when combining genetic data with functional data the outcome could be of major importance to clinicians.
基金This work was supported by grants from the National High Technology Research and Development Program of China ("863" Program) (No. 2004AA227040), the National Key Health Research Project Foundation of China during the 10th Five-Year Plan Period (No. 2004BA720A03) and the National Natural Science Foundation of China (No. 30300199 and No. 30671151).
文摘Background Hereditary spastic paraplegia (HSP) is a group of inherited neurodegenerative disorders with the shared characteristics of slowly progressive spasticity and weakness of the lower limbs. Thirteen loci for autosomal dominant HSP have been mapped. Methods A Chinese family with HSP was found in the Shandong province and Inner Mongolia Autonomous Region of China and genomic DNA of all 19 family members was isolated. After exclusion of known autosomal dominant loci, a genome wide scan and linkage analysis were performed. Results The known autosomal dominant loci of SPG3A, SPG4, SPG6, SPG8, SPG9, SPG10, SPG12, SPG13, SPG17, SPG19, SPG29, SPG31 and SPG33 were excluded by linkage analysis. The results of a genome wide scan demonstrated candidate linkage to a locus on chromosome 11 p14.1-p11.2, over an 18.88 cM interval between markers D11 S1324 and D11 S1933. A maximal, two point LOD score of 2.36 for marker D11S935 at a recombination fraction (e) of 0 and a multipoint LOD score of 2.36 for markers D11S1776, D11S1751, D11S1392, D11S4203, D11S935, D11S4083, and D11S4148 at θ=0, suggest linkage to this locus. Conclusion The HSP neuropathy in this family may represent a novel genetic entity, which will facilitate discovery of this causative gene.
