The common marmoset as a model for the study of nonalcoholic fatty liver disease and nonalcoholic steatohepatitis.

Nonalcoholic fatty liver disease (NAFLD) is considered the hepatic manifestation of metabolic syndrome. The more clinically concerning form of the disease, nonalcoholic steatohepatitis (NASH), is characterized by steatosis, lobular inflammation, and ballooning degeneration. Here we describe a naturally occurring syndrome in the common marmoset that recapitulates the pathologic findings associated with NAFLD/NASH in humans. Hepatomegaly determined to result from NAFLD was observed in 33 of 183 marmosets. A comprehensive histopathologic assessment performed in 31 marmosets demonstrated that NAFLD was characterized by variably sized, Oil Red O staining cytoplasmic vacuoles and observed primarily in animals with evidence of obesity and insulin resistance. A subset of marmosets (16 of 31) also demonstrated evidence of NASH characterized by multifocal inflammation combined with ballooning hepatocellular degeneration. Marmosets with NASH demonstrated an increase in immunostaining with an antibody targeted against the human leukocyte antigens (HLA)-DP, HLA-DQ, and HLA-DR compared with marmosets without NASH (38.89 cells/10× field vs 12.05 cells/10× field, P = .05). In addition, marmosets with NASH demonstrated increased Ki-67 immunopositive cellular proliferation compared with those without (5.95 cells/10× field vs 1.53 cells/10× field, P = .0002). Finally, animals with NASH demonstrated significantly increased mean circulating serum iron levels (160.47 µg/dl, P = .008) and an increase in numbers of Prussian blue-positive Kupffer cells (9.28 cells/40× field, P = .005) relative to marmosets without NASH (97.75 µg/dl and 1.87 cells/40×, respectively). This study further characterizes the histopathology of NAFLD/NASH and suggests that the marmoset may be a valuable animal model with which to investigate the host and environmental factors contributing to the progression of NAFLD/ NASH.

Pax6 is implicated in murine pituitary endocrine function.

Pax6, an evolutionarily conserved transcription factor, is expressed in the murine and zebrafish embryonic pituitary, but its role in pituitary development and endocrine function has not been described. To study the role of Pax6 in vivo, we examined Pax6 mutant mouse (SeyNeu) pituitaries. Mice homozygous for the SeyNeu mutation die at birth; therefore, we examined peptide hormone expression by the differentiated pituitary cell types as well as developmental marker expression in the intermediate and anterior lobes of the embryonic pituitary. GH- and PRL-immunopositive cells appear severely decreased in an outbred ICR background at embryonic d 17.5, although mRNA expression of these peptide hormones is present, as is expression of other pituitary markers. This suggests that pituitary cell types are able to differentiate in mutant embryos. To identify the cellular or physiologic mechanism responsible for less GH- and PRL-immunoreactivity in Pax6 mutant mice, we tested serum levels of GH and PRL. Pax6 homozygous mutant mice have GH serum levels one fifth that of controls at embryonic d 17.5, and one-third that of controls at postnatal d 0. PRL serum levels, which are very low during embryonic and neonatal stages, were below assay detection limits in both the wild-type and mutant groups. Taken together, these data suggest that Pax6 is not essential for pituitary differentiation, but rather functions to establish appropriate neonatal homeostatic levels of GH and PRL, possibly through regulation of translational or secretory mechanisms.

Mouse Mesenchyme forkhead 2 (Mf2): expression, DNA binding and induction by sonic hedgehog during somitogenesis.

Cloning and sequencing of mouse Mf2 (mesoderm/mesenchyme forkhead 2) cDNAs revealed an open reading frame encoding a putative protein of 492 amino acids which, after in vitro translation, binds to a DNA consensus sequence. Mf2 is expressed at high levels in the ventral region of newly formed somites, in sclerotomal derivatives, in lateral plate and cephalic mesoderm and in the first and second branchial arches. Other regions of mesodermal expression include the developing tongue, meninges, nose, whiskers, kidney, genital tubercule and limb joints. In the nervous system Mf2 is transcribed in restricted regions of the mid- and forebrain. In several tissues, including the early somite, Mf2 is expressed in cell populations adjacent to regions expressing sonic hedgehog (Shh) and in explant cultures of presomitic mesoderm Mf2 is induced by Shh secreted by COS cells. These results suggest that Mf2, like other murine forkhead genes, has multiple roles in embryogenesis, possibly mediating the response of cells to signaling molecules such as SHH.

Evidence for the involvement of the Gli gene family in embryonic mouse lung development.

Murine Gli, Gli2, and Gli3 are zinc finger genes related to Drosophila cubitus interuptus, a component of the hedgehog signal transduction pathway. In the embryonic lung, all three Gli genes are strongly expressed at the pseudoglandular stage, in distinct but overlapping domains of the mesoderm. Expression of Gli and Gli3, but not of Gli2, is subsequently downregulated at the canalicular stage, coincident with a decline in the expression of sonic hedgehog (Shh) and the hedgehog receptor gene, patched (Ptc). Overexpression of Shh in the lung results in increased levels of Ptc mRNA. Gli, but not Gli2, is also upregulated, suggesting a differential involvement of the Gli genes in the regulation of Ptc by SHH during lung development. Gli3 is not upregulated by Shh overexpression. However, its importance for lung development is shown by the finding that Gli3XtJ embryos, homozygous for a mutation involving a deletion of the Gli3 gene, have a stereotypic pattern of abnormalities in lung morphogenesis. The pulmonary defects in these embryos, consisting of localized shape changes and size reductions, correlate with normal Gli3 expression. Thus, our data indicate that one of the Gli genes, Gli3, is essential for normal lung development, and that another, Gli, can be placed downstream of Shh signaling in the lung.

Disruption of PAX6 function in mice homozygous for the Pax6Sey-1Neu mutation produces abnormalities in the early development and regionalization of the diencephalon.

Pax6 expression in the diencephalon of the mouse embryo is restricted both antero-posteriorly and dorso-ventrally, with changes in level occurring at prosomere boundaries. Small eye (Pax6Sey-1Neu) mice homozygous for Pax6 mutations have multiple defects in early forebrain development. In the diencephalon of Pax6Sey-1Neu/Pax6Sey-1Neu mice there is an apparent enlargement of the zona limitans (the boundary region between prosomeres p2 and p3), and a blurring of the p1-p2 boundary. PAX6 function is also required for the normal development of the posterior commissure at the midbrain-p1 boundary. In the posterior diencephalon PAX6 appears to regulate its own transcription, and that of Wnt7b. In p2 and p3, ventral markers are expressed more dorsally than normal, and this is accompanied in p3 by a reduction in the size of the zona incerta. Thus, PAX6 is essential for the normal development and regionalization of the diencephalon.

Fibroblast growth factor 10 (FGF10) and branching morphogenesis in the embryonic mouse lung.

During mouse lung morphogenesis, the distal mesenchyme regulates the growth and branching of adjacent endoderm. We report here that fibroblast growth factor 10 (Fgf10) is expressed dynamically in the mesenchyme adjacent to the distal buds from the earliest stages of lung development. The temporal and spatial pattern of gene expression suggests that Fgf10 plays a role in directional outgrowth and possibly induction of epithelial buds, and that positive and negative regulators of Fgf10 are produced by the endoderm. In transgenic lungs overexpressing Shh in the endoderm, Fgf10 transcription is reduced, suggesting that high levels of SHH downregulate Fgf10. Addition of FGF10 to embryonic day 11.5 lung tissue (endoderm plus mesenchyme) in Matrigel or collagen gel culture elicits a cyst-like expansion of the endoderm after 24 hours. In Matrigel, but not collagen, this is followed by extensive budding after 48-60 hours. This response involves an increase in the rate of endodermal cell proliferation. The activity of FGF1, FGF7 and FGF10 was also tested directly on isolated endoderm in Matrigel culture. Under these conditions, FGF1 elicits immediate endodermal budding, while FGF7 and FGF10 initially induce expansion of the endoderm. However, within 24 hours, samples treated with FGF10 give rise to multiple buds, while FGF7-treated endoderm never progresses to bud formation, at all concentrations of factor tested. Although exogenous FGF1, FGF7 and FGF10 have overlapping activities in vitro, their in vivo expression patterns are quite distinct in relation to early branching events. We conclude that, during early lung development, localized sources of FGF10 in the mesoderm regulate endoderm proliferation and bud outgrowth.

The role of Pax-6 in eye and nasal development.

Small eye (Sey) mice homozygous for mutations in the Pax-6 gene have no lenses and no nasal cavities. We have examined the ontogeny of eye and nasal defects in Sey/Sey embryos and have related the defects seen to the pattern of Pax-6 mRNA expression in the mouse during normal eye and nasal development. There are two principal components of the early eye, the neural ectoderm of the optic vesicle, which forms the retina, and the overlying surface ectoderm, which forms the lens and cornea. By studying these interacting tissues in normal and Sey/Sey embryos, we have identified processes for which Pax-6 is important and can thus suggest possible roles for the Pax-6 gene. Pax-6 is essential for the formation of lens placodes from surface ectoderm. In normal development, early Pax-6 mRNA expression in a broad domain of surface ectoderm is downregulated, but expression is specifically maintained in the developing lens placode. Moreover, other Pax-6-expressing tissues are frequently those that have can transdifferentiate into lens. Thus, phenotype and expression together suggest a role for Pax-6 in lens determination. At least some functions of Pax-6 can be separated from the influence of other tissues. Early Sey/Sey optic vesicles are abnormally broad and fail to constrict proximally. These defects occur prior to the time of lens placode formation and probably reflect a requirement for Pax-6 in neural ectoderm. In surface ectoderm domains, where Pax-6 expression is known to be independent of the presence of an optic vesicle, Pax-6 function is required for the maintenance of its own transcription. The mutual dependency of lens and optic vesicle development can also be studied using the Small eye mutation. Using region-specific markers we find that, in the morphologically abnormal Sey/Sey optic vesicles, aspects of normal proximo-distal specification nevertheless persist, despite the complete absence of lens. Like the lens, the nasal cavities develop from ectodermal placodes that normally express Pax-6 mRNA, fail to form in Sey/Sey mice and show Pax-6-dependent Pax-6 mRNA regulation. Analysis of patterns of programmed cell death and absence of nasal region expression from an Msx-1 transgene in Sey/Sey embryos suggest a requirement for Pax-6 in the transition from presumptive nasal ectoderm to placode, and that Msx-1, or genes regulating it, are possible targets for Pax-6.

Conversion of Glucose to 2-Keto-l-Gulonate, an Intermediate in l-Ascorbate Synthesis, by a Recombinant Strain of Erwinia citreus.

A gene for 2,5-diketo-d-gluconate (25DKG) reductase, which encodes an enzyme composed of 277 amino acid residues catalyzing the reduction of 25DKG to 2-keto-l-gulonate (2KLG), was cloned from Corynebacterium sp. strain SHS752001 and expressed in Erwinia citreus SHS2003, a strain which oxidizes glucose to 25DKG. The recombinant microorganism converted glucose to 2KLG, a compound which can be readily converted to l-ascorbate (vitamin C). Improvements in the yield of 2KLG were obtained by changing fermentation conditions, using the p(l) promoter of bacteriophage lambda to express the reductase, and selecting a mutant of E. citreus which could use neither 25DKG nor 2KLG as a sole carbon source for growth. When a culture of the recombinant strain was fed with glucose to a total of 40 g/liter, 49.4% of the glucose was converted to 2KLG during a 72-h fermentation.

The nucleotide sequence of the replication origin of plasmid NTP1.

The sequence of the DNA of the origin region of NTP1 has been obtained. Analysis of the sequence indicates that: (1) there is great sequence homology in the DNA upstream from the origin in NTP1, ColE1, CLODF13, PBR345 AND PBR322; (2) only seven base pairs of NTP1 are identical with the sequence downstream from the origin in ColE1, although some homology exists for 140 bases downstream; (3) two ten base pair direct repeats are present in NTP1 which are also conserved in all four plasmids named above; (4) probably no polypeptide greater than fifteen amino acids in length is encoded by the NTP1 origin region, since no single open reading frame is conserved in all five plasmids.

Child abuse: the nurse and prevention.

As professional practitioners, nurses can promote prevention by becoming knowledgeable about all aspects of the phenomenon of child abuse, by carefully scrutinizing their own beliefs and values, and by monitoring their own behavior. By careful use of the problem-solving approach in their practices they can effectively intervene in potentially problematic situations. As citizens who have more complete and accurate information than their lay counterparts, they can be vital resources. They can support movements and legislation that seek to establish methods for preventing child neglect and abuse, and where neither movements nor legislation exists, they can promote both. Finally, nurses can promote and participate in relevant research that will continue to identify causes and seek solutions.

Location of an ampicillin resistance transposon, Tn1701, in a group of small, nontransferring plasmids.

By restriction endonuclease cleavage mapping and electron microscopic examination of heteroduplexes, we have identified an ampicillin resistance determinant transposon, designated Tn1701, in a group of small, nontransferring plasmids which confer resistance to ampicillin (Ap), sulfonamide (Su), and streptomycin (Sm). Plasmid NTP1, which mediates Ap resistance, contains Tn1701. Recombinant plasmids NTP3 (Ap Su) and NTP4 (Ap Su Sm) contain Tn1701, indicating that they were derived by transposition of Tn1701 from NTP1 to an unrelated plasmid, NTP2 (Su Sm). The transposon Tn1701 is very similar to the known ampicillin resistance transposons Tn1, Tn2, and Tn3 in its size (3.2 x 10(6) daltons), base sequence homology observed by heteroduplex formation, restriction endonuclease cleavage sites, and possession of a short inverted repeat sequence at both ends. Like the other TnA elements, Tn1701 also specifies a type TEM beta-lactamase.

Evolution of bacteriophage phi X174. IV. Restriction enzyme cleavage map of St-1.

The St-1 genome is about 6,050 base pairs in size, approximately 10% larger than phiX174 (5,375 base pairs). The DNA fragments obtained by HincII, HaeIII, and EcoRI digestion were ordered and aligned into a colinear map, and the single BglI cleavage site was located.

Evolution of bacteriophage phi C174. V. Alignment of the phi X174, G4, and St-1 restriction enzyme cleavage maps.

The restriciton enzyme cleavage maps of bacteriophage phiS174, G4, and St-1 were aligned by two-dimensional filter hybridization. These studies show that the basic genome structure of phiX174 is conserved in the other two bacteriophage. However, the data also suggest the existence of regions of nonhomology.

Synthesis of R-plasmid-coded beta-lactamase in minicells and in an in vitro system.

beta-Lactamase encoded by a small, nontransferring R-plasmid, NTP1, conferring ampicillin resistance to its host bacteria, was purified. NTP1 plasmid-coded beta-lactamase was found to be periplasmically located in the host Escherichia coli cell, to have a molecular weight of about 25,000, and to show a relatively low activity against oxacillin and methicillin compared with benzylpenicillin. These characteristics indicate that NTP1 plasmid-coded beta-lactamase is very similar or identical to the "TEM-type" beta-lactamase, which is the most common beta-lactamase coded by R-plasmids in enteric bacteria. In minicells containing NTP1 plasmids, at least six plasmid-specific proteins were synthesized, and beta-lactamase was synthesized in a greater amount than other plasmid-coded proteins. In a cell-free transcription-translation coupled system from E. coli, NTP1 plasmid deoxyribonucleic acid directed the synthesis of several species of plasmid-specific proteins, including active beta-lactamase. The in vitro system also showed preferential synthesis of beta-lactamase, as was observed in minicells containing NTP1 plasmids.