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Disease
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Enzyme
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Pivot Concepts:
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Target Concepts:
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Query: EC:3.5.4.4 (
adenosine deaminase
)
5,136
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Murine fetal thymic organ culture (FTOC) was used to investigate the mechanism by which a lack of
adenosine deaminase
(
ADA
) leads to a failure of T cell production in the thymus. We previously showed that T cell development was inhibited beginning at the CD4(-)CD8(-)CD25(+)
CD44
(low) stage in
ADA
-deficient FTOC initiated at day 15 of gestation when essentially all thymocytes are CD4(-)CD8(-). In the present study, we asked whether thymocytes at later stages of differentiation would also be sensitive to
ADA
inhibition by initiating FTOC when substantial numbers of CD4(+)CD8(+) thymocytes were already present. dATP was highly elevated in
ADA
-deficient cultures, and the recovery of alphabeta TCR(+) thymocytes was inhibited by 94%, indicating that the later stages of thymocyte differentiation are also dependent upon
ADA
.
ADA
-deficient cultures were partially rescued by the pan-caspase inhibitor carbobenzoxy-Val-Ala-Asp-fluoromethyl ketone or by the use of apoptotic protease-activating factor-1-deficient mice. Rescue was even more dramatic, with 60- to >200-fold increases in the numbers of CD4(+)CD8(+) cells, when FTOC were performed with an inhibitor of adenosine kinase, the major thymic deoxyadenosine phosphorylating enzyme, or with bcl-2 transgenic mice. dATP levels were normalized by treatment with either carbobenzoxy-Val-Ala-Asp-fluoromethyl ketone or an adenosine kinase inhibitor, but not in cultures with fetal thymuses from bcl-2 transgenic mice. These data suggest that ADA deficiency leads to the induction of mitochondria-dependent apoptosis as a consequence of the accumulation of dATP derived from thymocytes failing the positive/negative selection checkpoint.
...
PMID:Further differentiation of murine double-positive thymocytes is inhibited in adenosine deaminase-deficient murine fetal thymic organ culture. 1667 Mar
The objective of this study is to review the candidate gene and genome-wide association studies relevant to bronchopulmonary dysplasia, and to discuss the emerging understanding of the complexities involved in genetic predisposition to bronchopulmonary dysplasia and its outcomes. Genetic factors contribute much of the variance in risk for BPD. Studies to date evaluating single or a few candidate genes have not been successful in yielding results that are replicated in GWAS, perhaps due to more stringent p-value thresholds. GWAS studies have identified only a single gene (SPOCK2) at genome-wide significance in a European White and African cohort, which was not replicated in two North American studies. Pathway gene-set analysis in a North American cohort confirmed involvement of known pathways of lung development and repair (e.g.,
CD44
and phosphorus oxygen lyase activity) and indicated novel molecules and pathways (e.g.,
adenosine deaminase
and targets of miR-219) involved in genetic predisposition to BPD. The genetic basis of severe BPD is different from that of mild/moderate BPD, and the variants/pathways associated with BPD vary by race/ethnicity. A pilot study of whole exome sequencing identified hundreds of genes of interest, and indicated the overall feasibility as well as complexity of this approach. Better phenotyping of BPD by severity and pathophysiology, and careful analysis of race/ethnicity is required to gain a better understanding of the genetic basis of BPD. Future translational studies are required for the identification of potential genetic predispositions (rare variants and dysregulated pathways) by next-generation sequencing methods in individual infants (personalized genomics).
...
PMID:Genetic predisposition to bronchopulmonary dysplasia. 2647 Oct 63
