Relation between acid back -diffusion and luminal surface hydrophobicity in canine gastric mucosa: Effects of salicylate and prostaglandin

The stomach is thought to be protected from luminal acid by a gastric mucosal barrier that restricts the diffusion of acid into tissue. This study tested the hypothesis that the hydrophobic luminal surface of canine gastric mucosa incubated in Ussing chambers, impedes the back-diffusion of luminal acid into the tissue. Isolated sheets of mucosa were treated with cimetidine to inhibit spontaneous acid secretion, and incubated under conditions that prevented significant secretion of luminal bicarbonate. By measuring acid loss from the luminal compartment using the pH-stat technique, acid back-diffusion was continuously monitored; potential difference (PD) was measured as an index of tissue viability. Tissue luminal surface hydrophobicity was estimated by contact angle analysis at the end of each experiment. Addition of 16,16-dimethyl prostaglandin E$\sb2$ to the nutrient compartment enhanced luminal surface hydrophobicity, but did not reduce acid back-diffusion in tissues that maintained a constant PD. 10 mM salicylate at pH 4.00 in the luminal compartment reduced surface hydrophobicity, but this decrease did not occur if 1 ug/ml prostaglandin was present in the nutrient solution. Despite possessing relatively hydrophilic and relatively hydrophobic surface properties, respectively, acid back-diffusion in the absence of salicylate was not significantly different between these two groups. Neither group maintained a PD after incubation with salicylate. Lastly, radiolabelled salicylate was used to calculate the free (non-salicylate associated) acid loss in tissues incubated with salicylate and/or prostaglandin. No significant correlation was found between free acid back-diffusion and luminal surface hydrophobicity. These data do not support the hypothesis that acid back-diffusion in impeded by the hydrophobic surface presented by isolated canine gastric mucosa. ^

Fundamentos biológicos para el uso de la mucosa oral como vía de aplicación de métodos inmunoterápicos

El transporte de medicamentos a través de la mucosa oral ha sido objeto de particular atención, especialmente en las ultimas dos décadas. Entre las distintas regiones de la mucosa oral, la mucosa sublingual es el sitio primario utilizado para la administración de diferentes sustancias incluidos algunos tipos de antígenos. La estructura histológica de esta área muestra la existencia de numerosas células inmunocompetentes capaces de activar el sistema inmunológico. Previo a la descripción de las diferentes rutas de absorción de fármacos y experiencias sobre permeabilidad de la región sublingual, se realiza una breve reseña de la histología y anatomía del área sublingual. En este trabajo también se tratan las ventajas y desventajas de la vía sublingual y el potencial aprovechamiento de la inmunoterapia sublingual para el tratamiento de patologías sistémicas y orales.

Effectiveness of medical abortion with mifepristone and buccal misoprostol through 59 gestational days

BACKGROUND: From 2001 to March 2006, Planned Parenthood Federation of America (Planned Parenthood) health centers throughout the United States provided medical abortions principally by a regimen of oral mifepristone, followed 24-48 h later by vaginal misoprostol. In late March 2006, analyses of serious uterine infections following medical abortions led Planned Parenthood to change the route of misoprostol administration and to employ additional measures to minimize subsequent serious uterine infections. In August 2006, we conducted an extensive audit of medical abortions with the new buccal misoprostol regimen so that patients could be given accurate information about the success rate of the new regimen. OBJECTIVES: We sought to evaluate the effectiveness of the buccal medical abortion regimen and to examine correlates of its success during routine service delivery. METHODS: In 2006, audits were conducted in 10 large urban service points to estimate the success rates of the buccal regimen. Success was defined as medical abortion without vacuum aspiration. These audits also permitted estimates of success rates with oral misoprostol following mifepristone in a subset in which 98% of the subjects stemmed from two sites. RESULTS: The effectiveness of the buccal misoprostol-mifepristone regimen was 98.3% for women with gestational ages below 60 days. The oral misoprostol-mifepristone regimen, used by 278 women with a gestational age below 50 days, had a success rate of 96.8%. CONCLUSION: In conjunction with 200 mg of mifepristone, use of 800 mcg of buccal misoprostol up to 59 days of gestation is as effective as the use of 800 mcg of vaginal misoprostol up to 63 days of gestation.

Growth response of broiler chickens to inclusion of hydrolyzed porcine mucosa (Palbio) in diets varying in total lysine content.

Growth response of broiler chickens to inclusion of hydrolyzed porcine mucosa (Palbio) in diets varying in total lysine content

Growth response of broilers to lysine levels and hydrolyzed porcine digestive mucosa (Palbio) inclusion in diet from 1 to 21 d of age

Palbio (PAL, Palbio 50 RD, Bioibérica, Spain) is a protein concentrate based on hydrolyzed porcine digestive mucosa dried under a fluid bed system over a soybean carrier, currently used in piglet feeds. The digestibility of PAL is very high and the product may be an excellent source of protein for young chicks. An experiment was conducted with 1,280 straight-run one-d-old Ross 308 chicks to evaluate the growth response of broilers to dietary inclusion of PAL.

Efecto de la incusion de hidrolizado de mucosa digestiva porcina (palbio 50 rd®) y del nivel de lisina del pienso sobre los parametros productivos en pollos de 1 a 21 dias de edad

El hidrolizado de mucosa digestiva de porcino (Palbio 50 RD ® , Bioiéerica, S.A., PAL) se utiliza con resultados óptimos en la alimentación de lechones recién destetados (Lindeman el al. 2000; Corassa et al. 2007). En un trabajo reciente, Mohiti-Asli et al. (2011) observaron que la inclusión de PAL mejoraba los resultados productivos en pollos de engorde a cualquier edad. En este trabajo se demostró que los niveles más recomendables de utilización de PAL teniendo en cuenta razones productivas y económicas, era el 2,5%. En esta investigación se estudio el efecto de la inclusión de 2,5% de PAL en piensos para pollos con niveles crecientes de lisina total (LYS, 1,1 a 1,4%). El objetivo fue estudiar si los efectos beneficiosos del PAL sobre la productividad de los pollos eran independientes o no del nivel de LYS del pienso.

Efecto de la inclusión de un hidrolizado de mucosa digestiva porcina (palbio 50 rd®) en piensos de broilers con niveles diferentes de lisina

La alimentación del pollo broiler durante la primera semana de vida es de creciente importancia debido a que la edad de sacrificio ha disminuido de forma constante en los últimos años. Además, consumos elevados durante la primera semana de vida mejoran el desarrollo del aparato digestivo de las aves, favoreciendo el crecimiento de las vellosidades intestinales y la eficiencia alimenticia (Lilburn, 1998, Noy et al., 2005). En los últimos años, el mercado dispone de nuevos productos de origen animal obtenidos durante el proceso de obtención de la heparina para uso farmacéutico. Uno de estos productos comerciales (Palbio 50 RD, Bioibérica S.A., Palafolls, Barcelona) está formado por la proteína hidrolizada de la mucosa digestiva de porcino limpia de contenidos intestinales, secada mediante un procedimiento especial que incluye la utilización de harina de soja como excipiente. Recientes estudios han demostrado de forma fehaciente el interés de utilizar este ingrediente en piensos de lechones de primera edad (Lindeman, et al., 2000; Corassa et al., 2007) pero los datos existentes en aves son más limitados. El objetivo de esta investigación fue evaluar los efectos de niveles crecientes de este hidrolizado proteico (PAL) sobre la productividad de pollos que recibían piensos con dos niveles diferentes de lisina total (Lys)

Estudo das alterações transversais do arco dentário inferior e da distância transversal da borda WALA no pré e pós-tratamento ortodôntico

O presente estudo investigou os efeitos das alterações transversais do arco dentário inferior na largura da borda WALA, ocorridos em pacientes com má oclusão classe II, divisão 1, no pré e pós-tratamento ortodôntico. Foram selecionados 36 pacientes, na faixa etária entre 12 e 15 anos e sete meses, que realizaram o tratamento ortodôntico com o emprego do aparelho pré-ajustado Straight Wire. Para avaliar o comportamento das dimensoes transversais foram mensuradas a largura do arco dentário inferior, a largura da borda wala e a distancia horizontal do ponto do eixo vestibular a borda wala por meio de um paquimetro dogital diretamente nos modelos de gesso inferiores pré e pós tratamento.

Control of phosphatidylserine biosynthesis through phosphatidylserine-mediated inhibition of phosphatidylserine synthase I in Chinese hamster ovary cells

Phosphatidylserine (PtdSer) synthesis in Chinese hamster ovary (CHO) cells occurs through the exchange of l-serine with the base moiety of phosphatidylcholine or phosphatidylethanolamine. The synthesis is depressed on the addition of PtdSer to the culture medium. A CHO cell mutant named mutant 29, whose PtdSer biosynthesis is highly resistant to this depression by exogenous PtdSer, has been isolated from CHO-K1 cells. In the present study, the PtdSer-resistant PtdSer biosynthesis in the mutant was traced to a point mutation in the PtdSer synthase I gene, pssA, resulting in the replacement of Arg-95 of the synthase by lysine. Introduction of the mutant pssA cDNA, but not the wild-type pssA cDNA, into CHO-K1 cells induced the PtdSer-resistant PtdSer biosynthesis. In a cell-free system, the serine base-exchange activity of the wild-type pssA-transfected cells was inhibited by PtdSer, but that of the mutant pssA-transfected cells was resistant to the inhibition. Like the mutant 29 cells, the mutant pssA-transfected cells grown without exogenous PtdSer exhibited an ≈2-fold increase in the cellular PtdSer level compared with that in CHO-K1 cells, although the wild-type pssA-transfected cells did not exhibit such a significant increase. These results indicated that the inhibition of PtdSer synthase I by PtdSer is essential for the maintenance of a normal PtdSer level in CHO-K1 cells and that Arg-95 of the synthase is a crucial residue for the inhibition.

Isolation of a Chinese hamster ovary cell mutant defective in intramitochondrial transport of phosphatidylserine

A CHO-K1 cell mutant with a specific decrease in cellular phosphatidylethanolamine (PE) level was isolated as a variant resistant to Ro09–0198, a PE-directed antibiotic peptide. The mutant was defective in the phosphatidylserine (PS) decarboxylation pathway for PE formation, in which PS produced in the endoplasmic reticulum is transported to mitochondria and then decarboxylated by an inner mitochondrial membrane enzyme, PS decarboxylase. Neither PS formation nor PS decarboxylase activity was reduced in the mutant, implying that the mutant is defective in some step of PS transport. The transport processes of phospholipids between the outer and inner mitochondrial membrane were analyzed by use of isolated mitochondria and two fluorescence-labeled phospholipid analogs, 1-palmitoyl-2-{N-[6(7-nitrobenz-2-oxa-1,3-diazol-4-yl)amino]caproyl}-PS (C6-NBD-PS) and C6-NBD-phosphatidylcholine (C6-NBD-PC). On incubation with the CHO-K1 mitochondria, C6-NBD-PS was readily decarboxylated to C6-NBD-PE, suggesting that the PS analog was partitioned into the outer leaflet of mitochondria and then translocated to the inner mitochondrial membrane. The rate of decarboxylation of C6-NBD-PS in the mutant mitochondria was reduced to ≈40% of that in the CHO-K1 mitochondria. The quantity of phospholipid analogs translocated from the outer leaflet of mitochondria into inner mitochondrial membranes was further examined by selective extraction of the analogs from the outer leaflet of mitochondria. In the mutant mitochondria, the translocation of C6-NBD-PS was significantly reduced, whereas the translocation of C6-NBD-PC was not affected. These results indicate that the mutant is defective in PS transport between the outer and inner mitochondrial membrane and provide genetic evidence for the existence of a specific mechanism for intramitochondrial transport of PS.

Somatostatin agonist pasireotide promotes a physiological state resembling short-day acclimatization in the photoperiodic male Siberian hamster (Phodopus sungorus)

Peer reviewed

Cholesterol feeding reduces nuclear forms of sterol regulatory element binding proteins in hamster liver

Cholesterol feeding reduces the mRNAs encoding multiple enzymes in the cholesterol biosynthetic pathway and the low density lipoprotein receptor in livers of hamsters. Here we show that cholesterol feeding also reduces the levels of the nuclear NH2-terminal domains of sterol regulatory element binding proteins (SREBPs), which activate transcription of sterol-regulated genes. We show that livers of hamsters, like those of mice and humans, predominantly produce SREBP-2 and the 1c isoform of SREBP-1. Both are produced as membrane-bound precursors that must be proteolyzed to release the transcriptionally active NH2-terminal domains. Diets containing 0.1% to 1.0% cholesterol decreased the amount of nuclear SREBP-1c without affecting the amount of the membrane precursor or its mRNA, suggesting that cholesterol inhibits the proteolytic processing of SREBP-1 in liver as it does in cultured cells. Cholesterol also appeared to reduce the proteolytic processing of SREBP-2. In addition, at high levels of dietary cholesterol the mRNA encoding SREBP-2 declined and the amount of the precursor also fell, suggesting that cholesterol accumulation also may inhibit transcription of the SREBP-2 gene. The high-cholesterol diets reduced the amount of low density lipoprotein receptor mRNA by 30% and produced a more profound 70–90% reduction in mRNAs encoding 3-hydroxy-3-methylglutaryl CoA synthase and reductase. Treatment with lovastatin and Colestipol, which increases hepatic demands for cholesterol, increased the amount of SREBP-2 mRNA as well as the precursor and nuclear forms of the protein. This treatment caused a reciprocal decline in SREBP-1c mRNA and protein. Considered together, these data suggest that SREBPs play important roles in controlling transcription of sterol-regulated genes in liver, as they do in cultured cells.

Aneuploidy correlated 100% with chemical transformation of Chinese hamster cells

Aneuploidy or chromosome imbalance is the most massive genetic abnormality of cancer cells. It used to be considered the cause of cancer when it was discovered more than 100 years ago. Since the discovery of the gene, the aneuploidy hypothesis has lost ground to the hypothesis that mutation of cellular genes causes cancer. According to this hypothesis, cancers are diploid and aneuploidy is secondary or nonessential. Here we reexamine the aneuploidy hypothesis in view of the fact that nearly all solid cancers are aneuploid, that many carcinogens are nongenotoxic, and that mutated genes from cancer cells do not transform diploid human or animal cells. By regrouping the gene pool—as in speciation—aneuploidy inevitably will alter many genetic programs. This genetic revolution can explain the numerous unique properties of cancer cells, such as invasiveness, dedifferentiation, distinct morphology, and specific surface antigens, much better than gene mutation, which is limited by the conservation of the existing chromosome structure. To determine whether aneuploidy is a cause or a consequence of transformation, we have analyzed the chromosomes of Chinese hamster embryo (CHE) cells transformed in vitro. This system allows (i) detection of transformation within 2 months and thus about 5 months sooner than carcinogenesis and (ii) the generation of many more transformants per cost than carcinogenesis. To minimize mutation of cellular genes, we have used nongenotoxic carcinogens. It was found that 44 out of 44 colonies of CHE cells transformed by benz[a]pyrene, methylcholanthrene, dimethylbenzanthracene, and colcemid, or spontaneously were between 50 and 100% aneuploid. Thus, aneuploidy originated with transformation. Two of two chemically transformed colonies tested were tumorigenic 2 months after inoculation into hamsters. The cells of transformed colonies were heterogeneous in chromosome number, consistent with the hypothesis that aneuploidy can perpetually destabilize the chromosome number because it unbalances the elements of the mitotic apparatus. Considering that all 44 transformed colonies analyzed were aneuploid, and the early association between aneuploidy, transformation, and tumorigenicity, we conclude that aneuploidy is the cause rather than a consequence of transformation.

Arrest of neuronal migration by excitatory amino acids in hamster developing brain

The influence of the excitotoxic cascade on the developing brain was investigated using ibotenate, a glutamatergic agonist of both N-methyl-d-aspartate (NMDA) ionotropic receptors and metabotropic receptors. Injected in the neopallium of the golden hamster at the time of production of neurons normally destined for layers IV, III, and II, ibotenate induces arrests of migrating neurons at different distances from the germinative zone within the radial migratory corridors. The resulting cytoarchitectonic patterns include periventricular nodular heterotopias, subcortical band heterotopias, and intracortical arrests of migrating neurons. The radial glial cells and the extracellular matrix are free of detectable damage that could suggest a defect in their guiding role. The migration disorders are prevented by coinjection of dl-2-amino-7-phosphoheptanoic acid, an NMDA ionotropic antagonist, but are not prevented by coinjection of l(+)-2-amino-3-phosphonopropionic acid, a metabotropic antagonist. This implies that an excess of ionic influx through the NMDA channels of neurons alters the metabolic pathways supporting neuronal migration. Ibotenate, a unique molecular trigger of the excitotoxic cascade, produces a wide spectrum of abnormal neuronal migration patterns recognized in mammals, including the neocortical deviations encountered in the human brain.

Substitutions in the aspartate transcarbamoylase domain of hamster CAD disrupt oligomeric structure

Aspartate transcarbamoylase (ATCase; EC 2.1.3.2) is one of three enzymatic domains of CAD, a protein whose native structure is usually a hexamer of identical subunits. Alanine substitutions for the ATCase residues Asp-90 and Arg-269 were generated in a bicistronic vector that encodes a 6-histidine-tagged hamster CAD. Stably transfected mammalian cells expressing high levels of CAD were easily isolated and CAD purification was simplified over previous procedures. The substitutions reduce the ATCase Vmax of the altered CADs by 11-fold and 46-fold, respectively, as well as affect the enzyme's affinity for aspartate. At 25 mM Mg2+, these substitutions cause the oligomeric CAD to dissociate into monomers. Under the same dissociating conditions, incubating the altered CAD with the ATCase substrate carbamoyl phosphate or the bisubstrate analogue N-phosphonacetyl-l-aspartate unexpectedly leads to the reformation of hexamers. Incubation with the other ATCase substrate, aspartate, has no effect. These results demonstrate that the ATCase domain is central to hexamer formation in CAD and suggest that the ATCase reaction mechanism is ordered in the same manner as the Escherichia coli ATCase. Finally, the data indicate that the binding of carbamoyl phosphate induces conformational changes that enhance the interaction of CAD subunits.