Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004135 (ATM)
 13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cell kinetics were measured in vivo in four experimental rat prostatic adenocarcinomas grown in normal or castrated rats. The aim was to investigate the effect of castration on growth rate and cell kinetics in hormone sensitive and hormone insensitive prostatic carcinomas. We used two anaplastic, hormone insensitive, fast growing tumors (Dunning R-3327-AT1 H and E), as well as two well differentiated, hormone sensitive, slow growing tumors (R-3327-H and R-3327-PAP). DNA ploidy, S-phase transit time (Ts), the labeling index (LI) and potential doubling time (Tpot) was determined by dual parameter flow cytometry, after in-vivo labeling, using bromodeoxyuridine (BUdR) and the tumor doubling time (DT) was determined from growth curves. After castration DT in the hormone sensitive H-subline changed from 21.7 days to 82.0 days, and in the PAP-subline from 22.2 days to 33.2 days. No significant changes in Tpot were observed. In the anaplastic tumors no differences in neither DT nor Tpot were seen. The cell loss factor (CLF) was relatively low in the two anaplastic tumors (0.55-0.59) compared to the well differentiated tumors. The CLF was unaffected by castration in the poorly differentiated tumors, whereas it increased significantly (from 0.75 to 0.92, P = 0.005) after castration in the H-tumor, and showed a non-significant increase in the PAP-tumor. This implies that the decrease in tumor growth in the hormone sensitive tumors is due to an increase in cell death, not a decrease in cell proliferation. These data indicate that CLF is the dominating factor in the reduced growth following androgen ablation in an androgen sensitive tumor. This study suggests that Tpot might be an additional predictor of a tumors proliferating rate and it may provide important information of the human prostatic cancer.
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PMID:The effect of castration on tumor growth rate and cell kinetics in hormone sensitive and hormone insensitive rat prostatic adenocarcinomas. 857 60

It is suggested that vasoconstriction mediated by angiotensin II cleaved from angiotensin I by angiotensin converting enzyme (ACE) is counterbalanced by concomitant formation of vasodilator angiotensin (1-7) by neutral endopeptidase (NEP). Here, we tested this hypothesis using as a bioassay the isolated rat lung perfused with Krebs-Henseleit (KH) solution and ventilated with negative pressures. Addition of angiotensin I (100 nM) into the isolated lung resulted in an immediate increase in pulmonary arterial pressure (Delta PAP) which was not accompanied by a significant change in respiratory lung function or weight of the lung. The Delta PAP response induced by angiotensin I was abolished by an inhibitor of ACE, perindoprilate (1 microM), or by angiotensin type 1 receptor antagonist (losartan, 1 microM) but not by angiotensin type 2 receptor antagonist (PD 123.319, 10 microM) suggesting the involvement of ACE and AT1 (but not AT2) receptors in this response. On the other hand, antagonist of bradykinin receptor B2 (icatibant, 100 nM) or an inhibitor of neutral endopeptidase, thiorphan (1 microM and 10 microM) did not modify DeltaPAP response induced by angiotensin I. In summary, in the isolated rat lung perfused with KH solution, ACE has a dominant role in the pulmonary conversion of angiotensin I to angiotensin II, while NEP-derived angiotensin 1-7 does not seem to constitute a major counterbalancing mechanism in the pulmonary vasoconstriction induced by endogenously formed angiotensin II.
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PMID:Effect of neutral endopeptidase inhibition on vascular response induced by exogenous angiotensin I in the isolated rat lung. 1473 Jan 3

Large heterozygous chromosomal deletions and gene duplications are important classes of mutations that are generally missed by standard PCR amplification and sequencing. Multiplex dosage pyrophosphorolysis-activated polymerization (MD-PAP), a derivative of PAP, was utilized to detect these types of mutations. PAP is a method for nucleic acid amplification in which 3' blocked oligonucleotides (P*) are activated by pyrophosphorolysis when annealed to the target template and subsequently extended. A key advantage to this technology is that PAP reactions produce little or no primer-dimer or false priming. As a result of this enhanced specificity, MD-PAP is easy to optimize. Herein, we utilize MD-PAP to determine gene dosage of each exon of the human factor IX gene by comparison with one endogenous internal control from the ATM gene. Estimated dosage is proportional to the actual template copy number over a minimum dynamic range from 1 to 16 copies. A blinded analysis detected 100% of 43 heterozygous deletions of exons in the human factor IX gene.
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PMID:Multiplex dosage pyrophosphorolysis-activated polymerization: application to the detection of heterozygous deletions. 1670 64