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Query: UMLS:C0155339 (
Brown
)
12,436
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. A structural alteration within the first intron of the renin gene in spontaneously hypertensive rats was demonstrated to co-segregate with blood pressure in some sets of F2 hybrids or recombinant inbred strains. There is no evidence as to whether restriction fragment length polymorphism of the renin gene is associated with any of the changes in the renin tissue level. For this reason we have determined renal renin activity in spontaneously hypertensive, Wistar-Kyoto and
Brown
Norway rats as well as in 22 recombinant inbred strains derived from F2 hybrids of spontaneously hypertensive and
Brown
Norway rats. 2. At the age of 4 months significantly lower renal renin activity was observed in spontaneously hypertensive rats than in both normotensive rat strains, Wistar-Kyoto and
Brown
Norway. The presence of the spontaneously hypertensive rat allele in recombinant inbred strains was associated with a substantially lower renal renin activity as compared with recombinant inbred strains bearing the
Brown
Norway rat allele. There was no relationship between renal renin activity and the polymorphism in either the
angiotensinogen
gene or the angiotensin-converting enzyme gene. 3. There was a borderline correlation between blood pressure and renal renin activity in recombinant inbred strains. Nevertheless, additional comparisons within recombinant inbred strains bearing the spontaneously hypertensive rat allele of the renin gene failed to reveal any significant relationship between blood pressure level and renal renin activity. 4. Our data suggest that the restriction fragment length polymorphism marking the renin gene of the spontaneously hypertensive rat is accompanied by an alteration in the renin-angiotensin system at the renal level.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Renal renin activity is associated with alterations of the renin gene in recombinant inbred rat strains. 809 5
Linkage studies in the spontaneously hypertensive rat (SHR) have suggested that a gene or genes regulating blood pressure may exist on rat chromosome 19 in the vicinity of the
angiotensinogen
gene. To test this hypothesis, we measured blood pressure in SHR progenitor and congenic strains that are genetically identical except for a segment of chromosome 19 containing the
angiotensinogen
gene transferred from the normotensive
Brown
Norway (BN) strain. Transfer of this segment of chromosome 19 from the BN strain onto the genetic background of the SHR induced significant decreases in systolic and diastolic blood pressures in the recipient SHR chromosome 19 congenic strain. To test for differences in
angiotensinogen
gene expression between the congenic and progenitor strains, we measured
angiotensinogen
mRNA levels in a variety of tissues, including aorta, brain, kidney, and liver. We found no differences between the progenitor and congenic strains in the
angiotensinogen
coding sequence or in
angiotensinogen
expression that would account for the blood pressure differences between the strains. In addition, no significant differences in plasma levels of
angiotensinogen
or plasma renin activity were detected between the 2 strains. Thus, transfer of a segment of chromosome 19 containing
angiotensinogen
from the BN rat into the SHR induces a decrease in blood pressure without inducing any major changes in plasma
angiotensinogen
levels or plasma renin activity. These results indicate that the differential chromosome segment trapped in the SHR chromosome 19 congenic strain contains a quantitative trait locus that influences blood pressure in the SHR but that this blood pressure effect is not explained by differences in plasma
angiotensinogen
levels or
angiotensinogen
expression.
...
PMID:Effect of chromosome 19 transfer on blood pressure in the spontaneously hypertensive rat. 993 Nov 13
The mechanisms underlying glucocorticoid (GC)-increased adiposity are poorly understood.
Brown
adipose tissue (BAT) acquires white adipose tissue (WAT) cell features defined as BAT whitening under certain circumstances. The aim of our current study was to investigate the possibility and mechanisms of GC-induced BAT whitening. Here, we showed that one-week dexamethasone (Dex) treatment induced BAT whitening, characterized by lipid droplet accumulation, in vitro and in vivo. Furthermore, autophagy and ATG7 (autophagy related 7) expression was induced in BAT by Dex, and treatment with the autophagy inhibitor chloroquine or adenovirus-mediated ATG7 knockdown prevented Dex-induced BAT whitening and fat mass gain. Moreover, Dex-increased ATG7 expression and autophagy was mediated by enhanced expression of BTG1 (B cell translocation gene 1, anti-proliferative) that stimulated activity of CREB1 (cAMP response element binding protein 1). The importance of BTG1 in this regulation was further demonstrated by the observed BAT whitening in adipocyte-specific BTG1-overexpressing mice and the attenuated Dex-induced BAT whitening and fat mass gain in mice with BTG1 knockdown in BAT. Taken together, we showed that Dex induces a significant whitening of BAT via BTG1- and ATG7-dependent autophagy, which might contribute to Dex-increased adiposity. These results provide new insights into the mechanisms underlying GC-increased adiposity and possible strategy for preventing GC-induced side effects via the combined use of an autophagy inhibitor.
Abbreviations:
ACADL: acyl-Coenzyme A dehydrogenase, long-chain; ACADM: acyl-Coenzyme A dehydrogenase, medium-chain; ACADS: acyl-Coenzyme A dehydrogenase, short-chain; ADIPOQ: adiponectin; AGT:
angiotensinogen
; Atg: autophagy-related; BAT: brown adipose tissue; BTG1: B cell translocation gene 1, anti-proliferative; CEBPA: CCAAT/enhancer binding protein (C/EBP), alpha; CIDEA: cell death-inducing DNA fragmentation factor, alpha subunit-like effector A; CPT1B: carnitine palmitoyltransferase 1b, muscle; CPT2: carnitine palmitoyltransferase 2; CQ: chloroquine; Dex: dexamethasone; eWAT: epididymal white adipose tissue; FABP4: fatty acid binding protein 4, adipocyte; FFAs: free fatty acids; GCs: glucocorticoids; NRIP1: nuclear receptor interacting protein 1; OCR: oxygen consumption rate; PBS: phosphate-buffered saline; PPARA: peroxisome proliferator activated receptor alpha; PPARG: peroxisome proliferator activated receptor gamma; PPARGC1A: peroxisome proliferator activated receptor, gamma, coactivator 1 alpha; PRDM16: PR domain containing 16; PSAT1: phosphoserine aminotransferase 1; RB1: RB transcriptional corepressor 1; RBL1/p107: RB transcriptional corepressor like 1; SQSTM1: sequestosome 1; sWAT: subcutaneous white adipose tissue; TG: triglycerides; UCP1: uncoupling protein 1 (mitochondrial, proton carrier); WT: wild-type.
...
PMID:Autophagy inhibition prevents glucocorticoid-increased adiposity via suppressing BAT whitening. 3118 63
