Characteristics and costs of carbapenemase-producing enterobacteria carriers (2012/2013).

Objectives: We had for aim to determine the characteristics of carbapenemase-producing enterobacteria (CPE) carriers and to assess the economic impact of isolation measures leading to loss of activity (closed beds, prolonged hospital stays) and additional personnel hours.

Patients And Methods: We conducted a retrospective study for 2years (2012/2013), in a French general hospital, focusing on CPE carriers with clinical case description. The costs were estimated by comparing the activity of concerned units (excluding the ICU) during periods with CPE carriers or contacts, during the same periods of the year (n-1), plus additional hours and rectal swabs.

Brain glucose transporter (Glut3) haploinsufficiency does not impair mouse brain glucose uptake.

Mouse brain expresses three principal glucose transporters. Glut1 is an endothelial marker and is the principal glucose transporter of the blood-brain barrier. Glut3 and Glut6 are expressed in glial cells and neural cells.

The metabolic syndrome resulting from a knockout of the NEIL1 DNA glycosylase.

Endogenously formed reactive oxygen species continuously damage cellular constituents including DNA. These challenges, coupled with exogenous exposure to agents that generate reactive oxygen species, are both associated with normal aging processes and linked to cardiovascular disease, cancer, cataract formation, and fatty liver disease. Although not all of these diseases have been definitively shown to originate from mutations in nuclear DNA or mitochondrial DNA, repair of oxidized, saturated, and ring-fragmented bases via the base excision repair pathway is known to be critical for maintaining genomic stability.

The course of CCl4 induced hepatotoxicity is altered in mGSTA4-4 null (-/-) mice.

Glutathione S-transferases (GSTs) play a key role in cellular detoxification of environmental toxicants through their conjugation to glutathione (GSH). Recent studies have shown that the alpha-class GSTs also provide protection against oxidative stress and lipid peroxidation (LPO). GSTA4-4 is a member of a sub group of the alpha-class GSTs.

Effect of chronic hyperghrelinemia on ingestive action of ghrelin.

The stomach hormone ghrelin is the endogenous ligand for the growth hormone secretagogue receptor (GHS-R). Systemic administration of ghrelin will cause elevations in growth hormone (GH) secretion, food intake, adiposity, and body growth. Ghrelin also affects insulin secretion, gastric acid secretion, and gastric motility.

Intestinal expression of mutant and wild-type progastrin significantly increases colon carcinogenesis in response to azoxymethane in transgenic mice.

Background: The authors recently reported that transgenic mice (hGAS) expressing pharmacologic levels of progastrin (PG) (> 10 nM to 100 nM) exhibited increased susceptibility to colon carcinogenesis in response to azoxymethane (AOM). It is not known whether PG functions as a cocarcinogen at the concentrations observed in patients with hypergastrinemia (approximately 1.0 nM).

Physiological role of mGSTA4-4, a glutathione S-transferase metabolizing 4-hydroxynonenal: generation and analysis of mGsta4 null mouse.

The lipid peroxidation product 4-hydroxynon-2-enal (4-HNE) is a strong electrophile that forms covalent adducts with proteins and, to a lesser extent, nucleic acids and phospholipids. The generation of 4-HNE appears to be an inevitable consequence of aerobic metabolism. The metabolism of 4-HNE is mainly, although not entirely, conjugative, and proceeds via Michael addition of glutathione to the double bond of 4-HNE.

Role of cyclooxygenase 2 in protein kinase C beta II-mediated colon carcinogenesis.

Elevated expression of protein kinase C beta II (PKC beta II) is an early promotive event in colon carcinogenesis (Gokmen-Polar, Y., Murray, N. R.

Distal and proximal cis-linked sequences are needed for the total expression phenotype of the mouse alcohol dehydrogenase 1 (Adh1) gene.

Mouse alcohol dehydrogenase 1 (Adh1) gene expression occurs at high levels in liver and adrenal, moderate levels in kidney and intestine, low levels in a number of other tissues, and is undetectable in thymus, spleen and brain by Northern analysis. In transgenic mice, a minigene construct containing 10 kb of upstream and 1.5 kb of downstream flanking sequence directs expression in kidney, adrenal, lung, epididymis, ovary and skin but promotes ectopic expression in thymus and spleen while failing to control expression in liver, eye, intestine and seminal vesicle.

Tumor induction by an Lck-MyrAkt transgene is delayed by mechanisms controlling the size of the thymus.

Transgenic mice expressing MyrAkt from a proximal Lck promoter construct develop thymomas at an early age, whereas transgenic mice expressing constitutively active Lck-AktE40K develop primarily tumors of the peripheral lymphoid organs later in life. The thymus of 6- to 8-week-old MyrAkt transgenic mice is normal in size but contains fewer, larger cells than the thymus of nontransgenic control and AktE40K transgenic mice. Earlier studies had shown that cell size and cell cycle are coordinately regulated.

Identification and expression of cosmids with an allelic variant of class I alcohol dehydrogenase in transgenic mice.

The mouse Adh1 gene exhibits tissue-specific regulation, is developmentally regulated, and is androgen regulated in kidney and adrenal tissue. To study this complex regulation phenotype a transgenic mouse approach has been used to investigate regulatory regions of the gene necessary for proper tissue expression and hormonal control. Transgenic mice have been produced with an Adh1 minigene as a reporter behind either 2.

TNF-alpha induction by LPS is regulated posttranscriptionally via a Tpl2/ERK-dependent pathway.

Tpl2 knockout mice produce low levels of TNF-alpha when exposed to lipopolysaccharide (LPS) and they are resistant to LPS/D-Galactosamine-induced pathology. LPS stimulation of peritoneal macrophages from these mice did not activate MEK1, ERK1, and ERK2 but did activate JNK, p38 MAPK, and NF-kappaB. The block in ERK1 and ERK2 activation was causally linked to the defect in TNF-alpha induction by experiments showing that normal murine macrophages treated with the MEK inhibitor PD98059 exhibit a similar defect.

Knock-out mouse for Canavan disease: a model for gene transfer to the central nervous system.

Background: Canavan disease (CD) is an autosomal recessive leukodystrophy characterized by deficiency of aspartoacylase (ASPA) and increased levels of N-acetylaspartic acid (NAA) in brain and body fluids, severe mental retardation and early death. Gene therapy has been attempted in a number of children with CD. The lack of an animal model has been a limiting factor in developing vectors for the treatment of CD.

Tpl-2 is an oncogenic kinase that is activated by carboxy-terminal truncation.

Provirus insertion in the last intron of the Tpl-2 gene in retrovirus-induced rat T-cell lymphomas results in the enhanced expression of a carboxy-terminally truncated Tpl-2 kinase. Here we show that the truncated protein exhibits an approximately sevenfold higher catalytic activity and is two- to threefold more efficient in activating the MAPK and SAPK pathways relative to the wild-type protein. The truncated Tpl-2 protein and a GST fusion of the Tpl-2 carboxy-terminal tail interact when coexpressed in Sf9 cells.

Interspecific backcrosses provide an important new tool for centromere mapping of mouse chromosomes.

Centromere mapping of mouse chromosomes has been problematic due to a paucity of appropriate markers. As a result, the mapping of centromeres has most often relied on the use of Robertsonian chromosomes to mark chromosome ends. Many Robertsonian translocations have been shown to suppress recombination in pericentric regions; therefore, centromere mapping data generated by using Robertsonian chromosomes must be interpreted with caution.

A molecular genetic linkage map of mouse chromosome 18 reveals extensive linkage conservation with human chromosomes 5 and 18.

An interspecific backcross between C57BL/6J and Mus spretus was used to generate a molecular genetic linkage map of mouse chromosome 18 that includes 23 molecular markers and spans approximately 86% of the estimated length of the chromosome. The Apc, Camk2a, D18Fcr1, D18Fcr2, D18Leh1, D18Leh2, Dcc, Emb-rs3, Fgfa, Fim-2/Csfmr, Gnal, Grl-1, Grp, Hk-1rs1, Ii, Kns, Lmnb, Mbp, Mcc, Mtv-38, Palb, Pdgfrb, and Tpl-2 genes were mapped relative to each other in one interspecific backcross. A second interspecific backcross and a centromere-specific DNA satellite probe were used to determine the distance of the most proximal chromosome 18 marker to the centromere.

An interspecific linkage map of mouse chromosome 15 positioned with respect to the centromere.

We have used an interspecific backcross between C57BL/6J and Mus spretus to derive a molecular genetic linkage map of chromosome 15 that includes 25 molecular markers and spans 93% of the estimated length of chromosome 15. Using a second interspecific backcross that was analyzed with a centromere-specific marker, we were also able to position our map with respect to the chromosome 15 centromere. This map provides molecular access to many discrete regions on chromosome 15, thus providing a framework for establishing relationships between cloned DNA markers and known mouse mutations and for identifying homologous genes in mice and humans that may be involved in disease.

Transgenic mice carrying a murine amylase 2.2/SV40 T antigen fusion gene develop pancreatic acinar cell and stomach carcinomas.

The mouse pancreatic amylase Amy-2.2 gene was fused to the structural gene for SV40 T antigen, and 51 independent transgenic founder mice carrying the fusion gene were generated. The majority of the founders and 100% of their offspring in the derived transgenic lines developed pancreatic acinar cell carcinomas and stomach carcinomas.