Expressão dos genes codificadores de canais de sódio Nav 1.7, Nav 1.8 e Nav 1.9 em portadores da Síndrome de Ardência Bucal / Expression of coding genes sodium channel Nav 1.7, Nav 1.8 and Nav 1.9 in patients with Burning Mouth Syndrome

A síndrome de ardência bucal (SAB) é uma condição caracterizada pelo sintoma de ardência na mucosa oral, na ausência de qualquer sinal clínico. Sua etiologia é desconhecida e, até o momento, não dispõe de tratamento efetivo. Há entretanto características de doença neuropática que justificam investigações nesse sentido. O objetivo desse estudo foi mensurar a expressão gênica dos receptores de canais de sódio, Nav 1.7, Nav 1.8 e Nav 1.9, nos pacientes portadores de SAB. A casuística foi composta por dois grupos sendo o grupo de estudo composto por 12 pacientes portadores de SAB, selecionados através do critério estabelecido pela International Headache Society, em 2013 e o grupo controle composto por 4 pacientes não portadores de SAB. As amostras analisadas foram coletadas do dorso lingual, por meio de biópsia realizada com punch de 3 mm e profundidade de 3 mm, estas foram submetidas ao método de análise RT-PCR em tempo real. A expressividade dos genes de canais de sódio foi avaliada nos indivíduos portadores de SAB em relação aos do grupo controle, sendo esta calculada a partir da normalização dos dados da quantificação destes com os da expressão do gene constitutivo (GAPDH), pelo método de Cicle Threshold comparativo e analisados estatisticamente por meio do teste estatístico Mann-Whitnney. Observou-se o aumento da expressão gênica do Nav 1.7 (fold-change = 38.70) e diminuição da expressão gênica do Nav 1.9 (fold-change = 0.89), porém sem diferenças estatisticamente significativas entre os grupos analisados. O gene Nav 1.8 não foi expresso em nenhuma das amostras analisadas. O Nav 1.7 expressa-se tanto em neurônios nociceptivos quanto no sistema nervoso autônomo e mutações no Nav 1.9 tem sido associada a perda de percepção dolorosa. Os resultados obtidos embora não estatisticamente significativos são compatíveis com as características da doença, justificando a extensão dos estudos na linha expressão de genes codificadores dos canais de sódio em pacientes com SAB.

Burning mouth syndrome (BMS) is a condition characterized by symptoms of burning in the oral mucosa, in the absence of any clinical signs. Its etiology is unknown and so far, it has no effective treatment. It is important to mention that BMS exhibits some traits of a neuropathic disease, what justifies a thorough investigation of this subject.The objective of this study was to measure the gene expression of the sodium channel receptors, Nav 1.7, Nav 1.8 and Nav 1.9, in patients with BMS.The sample was composed of two groups, being the study group formed by 12 patients with SAB, selected according to the criteria established by the International Headache Society in 2013, while the compound control group had 4 patients without SAB. The analyzed samples were collected from the tongue, by the biopsy technique with a 3 mm punch and 3mm depth. These samples were processed in real time, following the guidelines set forth by the RT-PCR method. The expressiveness of the sodium channels was evaluated in the individuals with BMS in relation to control group, which was calculated from the normalization of these data with the quantification of the expression of a constitutive gene (GAPDH) by the Cycle Threshold comparative methods and statistically compared by Man-Whitnney test. We observed an increased gene expression of Nav 1.7 (fold-change = 38.70) and a decreased gene expression of Nav 1.9 (fold-change = 0.89), but no statistically significant differences between the groups. Nav 1.8 gene was not expressed in any of the samples. Nav 1.7 is expressed in both nociceptive neurons as the autonomic nervous system and changes in Nav 1.9 has been associated with loss of pain perception. The results although not statistically significant are consistent with the disease characteristics, justifying the extension line of the studies on the expression of genes encoding the sodium channel in patients with SAB.

Ion fluxes and hematological parameters of two teleosts from the Rio Negro, Amazon, exposed to hypoxia / Fluxos iônicos e parâmetros hematológicos em duas espécies de teleósteos do Rio Negro, Amazônia, expostos à hipoxia

The aim of this study was to describe the effect of hypoxia on whole body ion fluxes and hematological parameters in two Amazonian teleosts: Serrasalmus eigenmanni and Metynnis hypsauchen. The increase of Na+ and Cl- effluxes on M. hypsauchen exposed to hypoxia may be related to an increase of gill ventilation and effective respiratory surface area, to avoid a reduction in the oxygen uptake, and/or with the decrease of pHe, that could inhibit Na+ and Cl- transporters and, therefore, reduce influx of these ions. Effluxes of Na+ and Cl- were lower in hypoxia than in normoxia for S. eigenmanni, possibly because in hypoxia this species would reduce gill ventilation and oxygen uptake, which would lead to a decrease of gill ion efflux and, consequently, reducing ion loss. The increase on hematocrit (Ht) during hypoxia in M. hypsauchen probably was caused by an increase of the red blood cell volume (MCV). For S. eigenmanni the increase on glucose possibly results from the usage of glucose reserve mobilization. Metynnis hypsauchen showed to be more sensitive to hypoxia than Serrasalmus eigenmanni, since the first presented more significant alterations on these osmoregulatory and hematological parameters. Nevertheless, the alterations observed for both species are strategies adopted by fishes to preserve oxygen supply to metabolizing tissues during exposure to hypoxia.

O objetivo deste trabalho foi descrever o efeito da hipoxia no fluxo iônico corporal e nos parâmetros hematológicos em duas espécies de teleósteos da Amazônia: Serrasalmus eigenmanni e Metynnis hypsauchen. O aumento dos efluxos de Na+ e Cl- em M. hypsauchen expostos à hipoxia pode estar relacionado ao aumento da ventilação branquial e da eficiência da área da superfície respiratória, a fim de evitar redução na captação de oxigênio; e/ou com a diminuição do pHe, que pode inibir os transportadores de Na+ e Cl- e, então, reduzir o influxo destes íons. Os efluxos de Na+ e Cl- foram menores em hipoxia do que em normoxia para a espécie S. eigenmanni, possivelmente porque esta espécie em hipoxia poderia reduzir a ventilação branquial e a captação de oxigênio, a qual levaria a uma diminuição do efluxo branquial de íons e, conseqüentemente, à redução da perda de íons. O aumento do hematócrito (Ht) durante hipoxia em M. hypsauchen provavelmente foi causado pelo aumento do volume das células vermelhas do sangue (MCV). Para a espécie S. eigenmanni, o aumento da glicose possivelmente foi resultado do uso da mobilização da reserva de glicose. A espécie Metynnis hypsauchen mostrou ser mais sensível à hipoxia do que a espécie Serrasalmus eigenmanni, uma vez que a primeira espécie apresentou mais alterações significativas em seus parâmetros osmorregulatórios e hematológicos. Contudo, as alterações observadas em ambas as espécies são estratégias adotadas pelos peixes a fim de preservar o suprimento de oxigênio para metabolização nos tecidos durante exposição à hipoxia.

Unexpected effects of pathogens on epithelial Na+ channels

No abstract available.

Control of Na+ channels in salivary duct cells

No abstract available.

Vesicular transport as a new paradigm in short-term regulation of transepithelial transport

The vectorial transepithelial transport of water and electrolytes in the renal epithelium is achieved by the polarized distribution of various transport proteins in the apical and basolateral membrane. The short-term regulation of transepithelial transport has been traditionally thought to be mediated by kinetic alterations of transporter without changing the number of transporters. However, a growing body of recent evidence supports the possibility that the stimulus-dependent recycling of transporter-carrying vesicles can alter the abundance of transporters in the plasma membrane in parallel changes in transepithelial transport functions. The abundance of transporters in the plasma membrane is determined by net balance between stimulus-dependent exocytic insertion of transporters into and endocytic retrieval of them from the plasma membrane. The vesicular recycling occurs along the tracts of the actin microfilaments and microtubules with associated motors. This review is to highlight the importance of vesicular transport in the short-term regulatory process of transepithelial transport in the renal epithelium. In the short-term regulation of many other renal transporters, vesicular transport is likely to be also involved. Thus, vesicular transport is now emerged as a wide-spread general regulatory mechanism involved in short-term regulation of renal functions.

Effects of crotoxin on the action potential kinetics of frog skeletal muscle

1. The effect of crotoxin on the action potential kinetics of frog (Rana catesbeiana; 60-80 g) skeletal muscle was studied using a modified Ringer solution containing 1.6 mM KCl. 2. Crotoxin affected the kinetics of the action potential in a dose-dependent manner (90 to 460 nM). At 230 nM, crotoxin prolonged the duration of the action potential (from 1.1 +/- 0.1 to 1.6 +/- 0.1 ms) and slowed the rates of depolarization (from 282.0 +/- 7.3 to 196.0 +/- 13.2 V/s) and repolarization (from -81.4 +/- 6.9 to -55.6 +/- 3.8 V/s), in a dose-dependent manner. Its phospholipase subunit (component B) was five times less effective. 3. No effect of crotoxin was observed in the presence of 2.5 mM KCl or when SrCl2 was substituted for CaCl2. Lowering the muscle temperature to 12 degrees C did not reduce the effect of crotoxin. 4. No effect on the passive membrane response to hyperpolarizing current pulses was observed, which implies no major effect on the membrane resistance and capacitance. 5. It is concluded that crotoxin reduces the Na+ current and slows down the repolarization mechanism. This effect is probably not dependent on the phospholipase A2 activity of crotoxin and is inhibited by the substitution of Sr2+ for Ca2+