Abstract

The ultimate goal of the proposed research is the definition of genes responsible for congenital heart defects in Down syndrome. The proposed work represents a joint effort to narrow the region responsible for congenital heart defects in Down syndrome and then to isolate genes expressed from that region in an embryonic heart cDNA library. We have defined a small region (3-5 mb) of chromosome 21 likely to contain the gene(s) for DS-CHD. Based on a clue that both heart and lung defects in Down syndrome may result from the same tendency of Down syndrome fetal heart and lung fibroblasts to aggregate avidly, we will also prepare and screen cDNA libraries from trisomy 21 fetal heart and lung fibroblasts that show abnormal adhesion as well as from an embryonic lung cDNA library. The expression of candidate sequences by in situ hybridization in the developing endocardial cushions and/or pulmonary acinar cells will be utilized to determine candidate genes that could mediate the heart and lung defects in Down syndrome. If linked to chromosome 21, autosomal dominant pedigrees with endocardial cushion defects (ECD) will also be investigated and used to narrow the DS-CHD region. Thus, in this grant, we propose to: 1) Use cases involving partial aneusomy for chromosome 21 to further decrease the size of the DS-CHD region. In addition, we will utilize the trisomy 16 mouse that also develops endocardial cushion defects to delimit the size of the segment of chromosome 21 pathogenic for CHD. 2) Construct human embryonic heart and lung and trisomy 21 fetal cardiac and pulmonary fibroblast libraries as these represent the target tissues for cardiopulmonary defects in Down syndrome. 3) Screen these libraries and isolate genes by a novel recombination- based assay (RBA) we developed for this purpose. Portions of genes in this subregion will be identified by other methodologies such as computer analyses, exon amplification or hybrid selection and these sequences will be placed in our R6K supF plasmid, pMAD3. The RBA will then be performed both to confirm the tissue and time of expression and to isolate a longer gene fragment. 4) In situ hybridization of candidate genes will be performed to detect messages expressed in the endocardial cushions and/or acinar lung cells during organogenesis. Thus a gene """"""""map"""""""" will be elaborated for sequences in a particular region of chromosome 21 known to be involved in abnormal cardiogenesis. At the least, this map will serve as a guideline for future studies to couple a """"""""genic"""""""" initiative to characterize the time and tissue of transcription of particular regions to the """"""""genomic"""""""" initiative. The efficient accomplishment of such a """"""""genic"""""""" initiative will increase the value of the """"""""genomic"""""""" initiative.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
1R01HL050025-01
Application #
3369067
Study Section
Human Embryology and Development Subcommittee 1 (HED)
Project Start
1993-04-01
Project End
1998-03-31
Budget Start
1993-04-01
Budget End
1994-03-31
Support Year
1
Fiscal Year
1993
Total Cost
Indirect Cost

  Institution

Name
University of Michigan Ann Arbor
Department
Type
Schools of Medicine
DUNS #
791277940
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109

  Publications

Barlow, G M; Chen, X N; Shi, Z Y et al. (2001) Down syndrome congenital heart disease: a narrowed region and a candidate gene. Genet Med 3:91-101
Slavotinek, A M; Chen, X N; Jackson, A et al. (2000) Partial tetrasomy 21 in a male infant. J Med Genet 37:E30
Korenberg, J R; Chen, X N; Devon, K L et al. (1999) Mouse molecular cytogenetic resource: 157 BACs link the chromosomal and genetic maps. Genome Res 9:514-23
Yamakawa, K; Huot, Y K; Haendelt, M A et al. (1998) DSCAM: a novel member of the immunoglobulin superfamily maps in a Down syndrome region and is involved in the development of the nervous system. Hum Mol Genet 7:227-37
Chiang, P W; Zhang, R; Stubbs, L et al. (1998) Comparison of murine Supt4h and a nearly identical expressed, processed gene: evidence of sequence conservation through gene conversion extending into the untranslated regions. Nucleic Acids Res 26:4960-4
Chen, X; Knauf, J A; Gonsky, R et al. (1998) From amplification to gene in thyroid cancer: a high-resolution mapped bacterial-artificial-chromosome resource for cancer chromosome aberrations guides gene discovery after comparative genome hybridization. Am J Hum Genet 63:625-37
Hubert, R S; Korenberg, J R (1997) PCP4 maps between D21S345 and P31P10SP6 on chromosome 21q22.2-->q22.3. Cytogenet Cell Genet 78:44-5
Hubert, R S; Mitchell, S; Chen, X N et al. (1997) BAC and PAC contigs covering 3.5 Mb of the Down syndrome congenital heart disease region between D21S55 and MX1 on chromosome 21. Genomics 41:218-26
Song, W J; Chung, S H; Kurnit, D M (1997) The murine Dyrk protein maps to chromosome 16, localizes to the nucleus, and can form multimers. Biochem Biophys Res Commun 231:640-4
Chiang, P W; Song, W J; Wu, K Y et al. (1996) Use of a fluorescent-PCR reaction to detect genomic sequence copy number and transcriptional abundance. Genome Res 6:1013-26

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