Nitric oxide may be the final mediator of nonadrenergic, noncholinergic inhibitory junction potentials in the gut.

This study tested the hypothesis that the final mediator of nonadrenergic, noncholinergic (NANC) inhibitory junction potentials (ijps) and associated relaxation responses was nitric oxide (NO) or a related substance and not vasoactive intestinal polypeptide (VIP). We used opossum esophagus body circular muscle and canine intestine circular muscle. In both these tissues, ijps had reversal potentials near the potassium equilibrium potential, (EK); in esophagus the ijps were apamin insensitive, but in the intestine they were partially apamin sensitive. N omega-Nitro-L-arginine methyl ester (NAME) (10(-5) to 5 x 10(-4) M) abolished ijps in both tissues, an effect overcome by 10(-3) M L-arginine but not D-arginine. NAME increased input resistance of esophagus tissues in the double sucrose gap but caused no significant depolarization in the sucrose gap or in studies with microelectrodes. Contractions and basal tension were increased in both tissues by NAME. The apamin sensitive and insensitive ijp components in canine muscle were both abolished by NAME, but the time course of this abolition was different for the two components. Methylene blue (10-50 microM) with variable rapidity and extent inhibited ijps in both tissues, but L-arginine could not overcome this effect. Methylene blue, like NAME, did not depolarize detectably but enhanced the contractile activity. VIP (10(-6) M) had very small effects in both tissues, little or no hyperpolarization and increased input resistance in esophagus, these effects were not changed by NAME, and VIP did not affect ijps. We conclude that NO may be the final mediator of NANC-initiated inhibitory junction potentials in gastrointestinal circular smooth muscle.     

Differential Induction of Antimicrobial REGIII by the Intestinal Microbiota and Bifidobacterium breve NCC2950

The intestinal microbiota is a key determinant of gut homeostasis, which is achieved, in part, through regulation of antimicrobial peptide secretion. The aim of this study was to determine the efficiency by which members of the intestinal microbiota induce the antimicrobial peptide REGIII and to elucidate the underlying pathways. We showed that germfree mice have low levels of REGIII-γ in their ileum and colon compared to mice with different intestinal microbiota backgrounds. Colonization with a microbiota of low diversity (altered Schaedler flora) did not induce the expression of REGIII-γ as effectively as a complex community (specific pathogen free). Monocolonization with the probiotic Bifidobacterium breve, but not with the nonprobiotic commensal Escherichia coli JM83, upregulated REGIII-γ expression. Induction of REGIII-γ by B. breve was abrogated in mice lacking MyD88 and Ticam1 signaling. Both live and heat-inactivated B. breve but not spent culture medium from B. breve induced the expression of REGIII-α, the human ortholog and homolog of REGIII-γ, in human colonic epithelial cells (Caco-2). Taken together, the results suggest that REGIII-γ expression in the intestine correlates with the richness of microbiota composition. Also, specific bacteria such as Bifidobacterium breve NCC2950 effectively induce REGIII production in the intestine via the MyD88-Ticam1 pathway. Treatment with this probiotic may enhance the mucosal barrier and protect the host from infection and inflammation.     

Neonatal maternal separation of rat pups results in abnormal cholinergic regulation of epithelial permeability

Neonatal maternal separation (MS) predisposes adult rats to develop stress-induced mucosal barrier dysfunction/visceral hypersensitivity and rat pups to develop colonic epithelial dysfunction. Our aim was to examine if enhanced epithelial permeability in such pups resulted from abnormal regulation by enteric nerves. Pups were separated from the dam for 3 h/day (days 4-20); nonseparated (NS) pups served as controls. On day 20, colonic tissues were removed and mounted in Ussing chambers. Horseradish peroxidase (HRP) flux was used to measure macromolecular permeability. HRP flux was increased in MS versus NS pups. The enhanced flux was inhibited by the cholinergic muscarinic antagonist atropine and the nicotinic antagonist hexamethonium. The cholinergic component was greater in tissues from MS versus NS pups, suggesting that increased cholinergic activity was responsible for the MS elevated permeability. Western blots and immunohistochemistry of colonic tissues demonstrated increased expression of choline acetyltransferase (ChAT) in MS pups, indicating greater synthesis of acetylcholine. Since a previous study indicated that corticotrophin-releasing factor (CRF) mediates barrier dysfunction in MS pups, we examined if the two pathways were linked. In MS tissues, nonselective CRF receptor antagonism inhibited the enhanced flux, and the addition of atropine did not produce further inhibition. Using selective receptor antagonists, we identified that CRF receptor 2 was involved in mediating this effect. These findings suggest that CRF, via CRF receptor 2, acts on cholinergic nerves to induce epithelial barrier dysfunction. Our study provides evidence that MS stimulates synthesis of acetylcholine, which, together with released CRF, creates a condition conducive to the development of epithelial barrier defects.     

GST, CYP and PON1 polymorphisms in farmers attributing ill health to organophosphate-containing sheep dip

Previously we reported that in sheep dippers exposed to organophosphates the frequency of paraoxonase (PON1) polymorphisms differed between those with or without self-reported ill health. We have now examined whether polymorphisms in other genes involved in xenobiotic metabolism alter disease risk in this population. There were elevated but non-significant risks associated with the CYP2D6 WT genotype (odds ratio (OR) 1.47, 95% CI 0.83-2.60), or a GSTP1*B or *C allele (OR 1.37, 95% CI 0.88-2.01) or being GSTM1*2/GSTT1*2 homozygous (OR 1.61, 95% CI 0.74-3.48). Similar results were generally obtained after the exclusion of subjects to obtain a more homogenous case-referent population: for double null GSTM1 and GSTT1 homozygotes the OR was 2.06 (95% CI 0.85-2.04). In those also likely to have been exposed to diazinon, risks associated with a GSTP1*B or *C allele (OR 1.82, 95% CI 0.92-3.63) or a GSTM1*2/GSTT1*2 homozygous (OR 2.60, 95% CI 0.72-10.42) were elevated but not to a significant extent. Risk associated with PON1 genotype and phenotype varied with CYP2D6 and GSTP1 genotype but not consistently with a priori hypotheses. Further work is necessary to delineate more clearly pathways of organophosphate activation and non-PON1 pathways of detoxification and to confirm whether CYP and GST polymorphisms alter disease risk in populations exposed to organophosphates.     

Rat Fibroblasts Cultured from Various Organs Exhibit Differences in α-Smooth Muscle Actin Expression, Cytoskeletal Pattern, and Adhesive Structure Organization

In vivo,α-smooth muscle actin (SMA) is expressedde novoand temporarily by fibroblastic cells during wound healing and correlates particularly with wound contraction. In culture, the presence of varying proportions of cells expressing and not expressing this actin isoform (α-SMA-positive and α-SMA-negative cells) is characteristic of fibroblastic populations from different tissues. It is possible that mechanisms controlling the expression of actin isoforms, and thus modulating cytoskeleton-related functions, play a major role in the organization of cell shape and motility. We have compared the cell shape as well as the cytoskeleton and focal contact organization in α-SMA-positive and α-SMA-negative rat fibroblasts from various organs (i.e., skeletal muscle, dermis, subcutaneous tissue, and lung). Within each category, i.e., α-SMA-positive or α-SMA-negative fibroblasts, no significant morphological differences were seen among populations derived from different tissues. In contrast, α-SMA-positive and α-SMA-negative fibroblasts were significantly different, independently of their origin: α-SMA-positive cells had larger average areas, higher numbers of narrow extensions at the edges, larger focal adhesions with the substratum, and a more important network of cellular fibronectin than α-SMA-negative cells. Thus, α-SMA-positive and α-SMA-negative variants naturally present in fibroblastic populations exhibit important phenotypic differences probably associated with distinct functional activities.     

Controlling cell length

Control of cell dimensions is an important but poorly understood aspect of morphogenesis. In this review, our primary focus is on control of cell length in different types of cells and cytoskeletal regulation of this parameter. Cell length is not a constant characteristic of certain cell type but of cells of fibroblastic morphology. Since cytoskeleton organization can change during different processes of morphogenesis changes in length control during cell spreading, epithelio-mesenchymal transformation and also in neoplastic transformation are discussed.     

Neighbouring male spotted bowerbirds are not related, but do maraud each other

Males with elaborate secondary sexual traits can enhance their mating success both by choosing to display at a site that increases the efficacy of their signal and by displaying at a site where the population is structured to provide inclusive fitness benefits via kin selection. Theoretical models and field studies reveal that, across a range of species and especially those with nonresource-based mating systems, males do display with kin. Bowerbirds use a nonresource-based mating system where males show spatial site fidelity and females visit the sites for the purpose of mate choice. However, neighbours can interfere with bower display by marauding (destroying and decoration stealing). Models suggest that local nonaggression pacts provide the best conditional strategy for males, a situation that may be facilitated by kin-mediated inclusive fitness benefits if males displayed together. We used a novel method of calculating relatedness, based on amplified fragment length polymorphism (AFLP), in a population of spotted bowerbirds, Chlamydera maculata, and found no evidence of fine-scale genetic structuring of display sites. Furthermore, males did not display next to kin, but instead an owner's neighbours were those most likely to maraud his bower. Marauders did not discriminate between kin and nonkin as their victims. Such theft and destruction may affect the mating success of the targeted bower owner.     

A new syndrome with noncompaction cardiomyopathy, bradycardia, pulmonary stenosis, atrial septal defect and heterotaxy with suggestive linkage to chromosome 6p

We report a three-generation family with nine patients affected by a combination of cardiac abnormalities and left isomerism which, to our knowledge, has not been described before. The cardiac anomalies include non-compaction of the ventricular myocardium, bradycardia, pulmonary valve stenosis, and secundum atrial septal defect. The laterality sequence anomalies include left bronchial isomerism, azygous continuation of the inferior vena cava, polysplenia and intestinal malrotation, all compatible with left isomerism. This new syndrome is inherited in an autosomal dominant pattern. A genome-wide linkage analysis suggested linkage to chromosome 6p24.3–21.2 with a maximum LOD score of 2.7 at marker D6S276. The linkage interval is located between markers D6S470 (telomeric side) and D6S1610 (centromeric side), and overlaps with the linkage interval in another family with heterotaxy reported previously. Taken together, the genomic region could be reduced to 9.4 cM (12 Mb) containing several functional candidate genes for this complex heterotaxy phenotype. M. W. Wessels, B. M. De Graaf: Both authors contributed equally.     

Interactions between human plasma sex hormone-binding globulin and xenobiotic ligands

Human sex hormone-binding globulin (SHBG) binds sex steroids with high affinity. In plasma, the number of SHBG steroid-binding sites far exceeds the molar concentrations of sex steroids, and will accommodate other ligands such as phytoestrogens and fatty acids. We have therefore developed a screening assay to identify ligands for SHBG, which exist in our diet or environment. This assay allows the binding of potential ligands to SHBG to be assessed under physiological conditions, and is sensitive to the effects of plasma constituents. Several classes of endocrine active compounds were tested, including hydroxy-polychlorinated biphenyls (HO-PCBs), phthalate esters, monoesters, chlorinated pesticides, as well as synthetic estrogens and phytoestrogens. The relative binding affinities (RBAs) of various compounds to SHBG were determined in competitive displacement assays, by comparison with 17 beta-estradiol (RBA=100). Synthetic estrogens bound SHBG with RBAs of 0.4 (ethinylestradiol)-0.2 (diethylstilbestrol), while some phytoestrogens bound with RBAs of 0.12 (coumestrol)-0.04 (naringenin). Many compounds did not bind to SHBG with sufficient affinity to allow RBA measurements, and these include: several phytoestrogens, such as genistein and kaempferol, polychlorinated biphenyls, phthalate esters and monoesters. Of nine HO-PCB congeners tested only 4-OH-2', 3', 4', 5'-tetraCB and 4-OH-2, 2', 3', 4', 5'-pentaCB bound SHBG in undiluted serum with RBAs of 0.05 and 0.11. Although all test compounds bound to SHBG with much lower affinity than endogenous sex steroids, these interactions may be physiologically relevant in situations where plasma SHBG levels are high and endogenous sex steroid levels are low, such as in pre-pubertal children and women taking oral contraceptives.