Maternal influence of prolyl endopeptidase on fat mass of adult progeny.

BACKGROUND: Maternal genotype has lifetime effects on progeny, but few specific genes, and no proteases, are known to underlie maternal effects. Prolyl endopeptidase (PREP) is a serine protease with putative substrates that regulate appetite or milk production. OBJECTIVE: To test effects of PREP on obesity phenotypes in mice. DESIGN: Mice with a gene trap (GT) of PREP (PREP(gt/gt)) on the C57BL/6J (B6) background were generated. Minimal PREP protein was detected by western blot. In Experiment 1, direct effects of PREP were measured in littermate mice derived from intercrosses of heterozygotes (PREP(WT/gt)). In Experiment 2, maternal effects of PREP were measured in reciprocal crosses of heterozygous (PREP(WT/gt)) and wild-type (WT) (PREP(WT/WT)) males and females. DIETS: Mice were fed either low-fat (LF, Experiments 1 and 2) or high-fat (HF, Experiment 1) defined diets. MEASUREMENTS: Adiposity index (AI) was calculated from body weight (BW) and weights of four fat depots measured in 120-day-old mice. Fasting plasma glucose, insulin and leptin were measured. In vivo plasma alpha-MSH levels were measured by targeted quantitative peptidomics. RESULTS: Experiment 1-In intercross mice, there were significant diet effects, but few genotype effects. There were no genotype effects on BW or AI in males or females on either diet. Experiment 2-In contrast, reciprocal crosses of heterozygous males or females with WT B6 revealed highly significant parent of origin effects on all traits except body length. Progeny (WT and heterozygous genotypes and both sexes) born to female PREP(WT/gt) heterozygotes had fat pads that weighed as much as -twofold more at 120 days old than progeny born to male heterozygotes. CONCLUSION: Heterozygosity for PREP GT results in highly significant maternal effects, whereas homozygosity for the PREP(gt/gt) mutation has a much more limited direct effect.

Genes and networks expressed in perioperative omental adipose tissue are correlated with weight loss from Roux-en-Y gastric bypass.

CONTEXT: Gastric bypass surgery is the most commonly performed bariatric surgical procedure in the United States. Variable weight loss following this relatively standardized intervention has been reported. To date, a method for reliable profiling of patients who will successfully sustain weight loss for the long term has not been established. In addition, the mechanisms of action in accomplishing major weight loss as well as the explanation for the variable weight loss have not been established. OBJECTIVE: To examine whether gene expression in perioperative omental adipose is associated with gastric bypass-induced weight loss. DESIGN: Cross-sectional study of gene expression in perisurgical omental adipose tissues taken/available at the time of operation and total excess weight loss (EWL). SUBJECTS: Fifteen overweight individuals who underwent Roux-en-Y gastric bypass (RYGB) surgery at the University of California Davis Medical Center (BMI: 40.6-72.8 kg/m(2)). MEASUREMENTS: Body weight before and following weight stabilization 18-42 months after surgery. Perioperative omental adipose RNA isolated from 15 subjects was hybridized to Affymetrix HG-U133A chips for 22,283 transcript expression measurements. RESULTS: Downstream analysis identified a set of genes whose expression was significantly correlated with RYGB-induced weight loss. The significant individual genes include acyl-coenzyme A oxidase 1 (ACOX1), phosphodiesterase 3A cGMP-inhibited (PDE3A) and protein kinase, AMP-activated, beta 1 non-catalytic subunit (PRKAB1). Specifically, ACOX1 plays a role in fatty acid metabolism. PDE3A is involved in purine metabolism and hormone-stimulated lipolysis. PRKAB1 is involved in adipocytokine signaling pathway. Gene network analysis revealed that pathways for glycerolipid metabolism, breast cancer and apoptosis were significantly correlated with long-term weight loss. CONCLUSION: This study demonstrates that RNA expression profiles from perioperative adipose tissue are associated with weight loss outcome following RYGB surgery. Our data suggest that EWL could be predicted from preoperative samples, which would allow for informed decisions about whether or not to proceed to surgery.

Identification and cross-species comparison of canine osteoarthritic gene regulatory cis-elements.

OBJECTIVE: To better understand transcription regulation of osteoarthritis (OA) by examining common promoter motifs in canine osteoarthritic genes, to identify other genes containing these motifs and to assess the conservation of these motifs between canine, human, mouse and rat. DESIGN: Differentially expressed transcripts in canine OA were mapped to the human genome. We thus identified 20 orthologous human transcripts representing 19 up-regulated genes and 62 orthologous transcripts representing 60 down-regulated genes. The 5 kbp upstream regions of these transcripts were used to identify binding sites and build promoter models based on those sites. The human genome was subsequently searched for other transcripts likely to be regulated by the same promoter models. Orthologous transcripts were then identified in canine, rat and mouse for determination of potential cross-species conservation of binding sites comprising the promoter model. RESULTS: Four promoter models containing 5-6 transcripts and 5-8 common transcription factor binding sites were developed. They include binding sites for AP-4, AP-2alpha and gamma, and E2F. Several hundred other human genes were found to contain these promoter motifs. Furthermore these motifs were significantly over represented in the orthologous genes in canine, rat and mouse genomes. CONCLUSIONS: We have developed and applied a computational methodology to identify common promoter elements implicated in OA and shared amongst four higher vertebrates. The transcription factors associated with these binding sites and other genes driven by these promoter motifs have been implicated in OA, chondrocyte development and with other biological factors involved in the disease.

Structural and functional domains of Escherichia coli ribosomal protein L7/L12. The hinge region is required for activity.

Variant forms of Escherichia coli ribosomal protein L7/L12 were constructed, overexpressed, and purified. These included proteins that deleted residues 35-52 (delta 35-52) and 42 to 52 (delta 42-52), others that contained single cysteine substitutions at residues 63 and 89, and combinations of the deletions and cysteine substitutions. Chemical modification of the introduced cysteine residues with [14C]iodoacetamide was used to radiolabel the protein variants in order to quantify their binding to the ribosome. Neither of the deletions in the hinge domain, delta 35-52 and delta 42-52, had any effect on L7/L12 dimer formation as detected by cross-linking by dimethyl suberimidate. Perpendicular urea gradient gel electrophoresis showed that both deletion variants retained a compact structural element attributable to the globular C-terminal domain. Reconstitution of core particles depleted of wild type L7/L12 with the deletion proteins showed that delta 42-52 bound normally in 4 copies per particle, whereas delta 35-52 bound in only 2.5 copies following isolation of the particles by high speed centrifugation or gel filtration. Ribosomes mixed with an excess of the deletion variants and assayed directly for polyphenylalanine synthesis were completely inactive. The results suggest that the flexibility conferred by the hinge is required for activity, perhaps by allowing the C-terminal domain to occupy a location near the base of the L7/L12 stalk.

Identification of DNA regions homologous to nitrogen fixation genes nifE, nifUS and fixABC in Azospirillum brasilense Sp7.

A 30 kb DNA region from Azospirillum brasilense Sp7, containing the nitrogenase structural genes (nifHDK), has been cloned. The presence of nif genes, in the 20 kb located next to nifHDK, was explored by Tn5 mutagenesis after subcloning various restriction fragments in the broad-host-range suicide vehicle pSUP202. Over 25 mutations due to Tn5 random insertions were obtained in the 20 kb and each recombined into the genome of strain Sp7. Four new nif loci were identified, located at about 4, 9, 12 and 18 kb downstream from nifK respectively. Hybridization with heterologous nif probes from Klebsiella pneumoniae, Bradyrhizobium japonicum and Azorhizobium caulinodans was performed to characterize the new nif regions. The region proximal to nifK appears to contain nifE and the region distal to nifK contains genes homologous to nifUS and fixABC. nifgene(s) from the fourth locus were not identified. Mutants in this locus, which were devoid of nitrogenase activity when tested under nitrogen-free conditions, displayed a high nitrogenase activity when glutamate was added to the growth medium. This phenomenon was also observed with mutants of the fixABC homology region, but to a lesser extent. Homology between strain Sp7 total DNA and a nifB-containing probe from B. japonicum was detected, although the hybridizing region was not part of the nif cluster described above.

Glycine betaine transport in Escherichia coli: osmotic modulation.

Exogenous glycine betaine highly stimulates the growth rate of various members of the Enterobacteriaceae, including Escherichia coli, in media with high salt concentrations (D. Le Rudulier and L. Bouillard, Appl. Environ. Microbiol. 46:152-159, 1983). In a nitrogen- and carbon-free medium, glycine betaine did not support the growth of E. coli either on low-salt or high-salt media. This molecule was taken up by the cells but was not catabolized. High levels of glycine betaine transport occurred when the cells were grown in media of elevated osmotic strength, whereas relatively low activity was found when the cells were grown in minimal medium. A variety of electrolytes, such as NaCl, KCl, NaH2PO4, K2HPO4, K2SO4, and nonelectrolytes like sucrose, raffinose, and inositol triggered the uptake of glycine betaine. Furthermore, in cells subjected to a sudden osmotic upshock, glycine betaine uptake showed a sixfold stimulation 30 min after the addition of NaCl. Part of this stimulation might be a consequence of protein synthesis. The transport of glycine betaine was energy dependent and occurred against a concentration gradient. 2,4-Dinitrophenol almost totally abolished the glycine betaine uptake. Azide and arsenate exerted only a small inhibition. In addition, N,N'-dicyclohexylcarbodiimide had a very low inhibitory effect at 1 mM. These results indicated that glycine betaine transport is driven by the electrochemical proton gradient. The kinetics of glycine betaine entry followed the Michaelis-Menten relationship, yielding a Km of 35 microM and a Vmax of 42 nmol min-1 mg of protein-1. Glycine betaine transport showed considerable structural specificity. The only potent competitor was proline betaine when added to the assay mixtures at 20-fold the glycine betaine concentration. From these results, it is proposed that E. coli possesses an active and specific glycine betaine transport system which is regulated by the osmotic strength of the growth medium.