Chemical control of tomato basal rot caused by Pythiuma phanidermatum

p.73-78

Neuroradiological findings expand the phenotype of OPA1-related mitochondrial dysfunction

International audience

Characterization of the behavioural phenotype of calpain-knockout mice

Dissertação de Mestrado, Ciências Biomédicas, Departamento de Ciências Biomédicas e Medicina, Universidade do Algarve, 2016

Evaluación de la involución, salud uterina y retorno de la actividad ovárica con la adición de zeolita 2% en la dieta basal de vacas lecheras

El objetivo de esta investigación fue evaluar el efecto de zeolita (Clinoptilolita) adicionado en la dieta basal de vacas lecheras durante 105 días, 60 días pre-parto (dap) y 45 días post-parto (dpp) y su influencia en la involución (IU) y salud uterina (SU), el retorno de la actividad ovárica (AO) y la condición corporal (CC). El proyecto se realizó en tres ganaderías de la comunidad de Soldados del Cantón Cuenca – Azuay, en 50 vacas secas, con una CC ≥ 3,5, entre 2 a 5 partos, clínicamente sanas y todas en las mismas condiciones sanitarias y de manejo; fueron divididas en un grupo control (n1=25), alimentadas con dieta basal y un experimental (n2=25), con dieta basal + 2% de Zeolita del consumo de materia (CMS). Se evaluó retorno de AO considerando folículos ≥ 10 mm de diámetro a los 15, 22, 35 y 45 dpp por Ultrasonografía transrectal, SU (>10 PMN) a los 35 dpp por cytobrush, IU considerando posición del útero con respecto a la pelvis (PU), simetría de los cuernos (SCU), y diámetro del cérvix (DC), a los 22 y 45 dpp por palpación rectal, y finalmente la CC a los 15 dap, parto y 45 dpp. Se usó un diseño completamente al azar (DCA) y los resultados fueron analizados con el programa estadístico SPSS versión 22.0, posteriormente fueron aplicados los estadísticos de “U de Mann Withney y Kruscall Wallis”. Se obtuvo eficacia en el GE con mayor porcentaje de vacas que retornaron su AO (respectivamente, para GC y GE fueron: 35 dpp 29,6% vs. 70,4%; 45 dpp 44,4% vs. 55,6%; p<0,05). La IU fue a los 45 dpp, los valores obtenido para GC y GE fueron: respectivamente, PU 40,0% vs. 76,0%, SCU 32,0% vs. 76,0% y DC 28,0% vs. 68,0%, (p<0,05). Y en SU también mostró eficacia en el GE obteniendo un 3,4% vs. 22,2% de PMN en comparación con el GC, (p<0,05). Finalmente, se comprobó diferencias significativas (p<0,05) en la CC al parto y 45 dpp con eficacia atribuida al GE. En conclusión, la adición de zeolita al 2% en la dieta basal mostró eficacia en la involución y salud uterina, retorno de la actividad ovárica y la condición corporal en vacas en transición, recomendando su uso en las ganaderías lecheras

Correlación entre glucosa basal y hemoglobina glucosilada en el adulto mayor en el cantón Cuenca, 2015

INTRODUCCIÓN: Alteraciones en el metabolismo de la glucosa son causantes de Síndrome Metabólico y diabetes en adultos mayores; la determinación de hemoglobina glucosilada es un indicador exacto de la glucemia de los individuos en los últimos tres meses permitiendo comprobar el estado de salud. OBJETIVO: Establecer la correlación entre glucosa basal y hemoglobina glucosilada y su asociación con Síndrome Metabólico en adultos mayores del cantón Cuenca. METODOLOGÍA: Estudio descriptivo en 126 adultos mayores. Para la obtención de la muestra se utilizó el calculador automático EPI INFO. De los participantes un grupo con Síndrome Metabólico cumplió el criterio de la Adult Treatment Panel (APT-III). Se aplicó una encuesta para recolección de información y se tomó muestras de sangre para determinar glucosa basal y hemoglobina glucosilada. La información obtenida se procesó en el programa SPSS versión 20.0, Excel y MedLab. Se clasificaron los valores de acuerdo a frecuencia por edad, sexo y su relación con Síndrome Metabólico. RESULTADOS: Se analizaron 126 pacientes entre 65 y 96 años, siendo más frecuentes adultos mayores de sexo femenino con 65,1%. La población con Síndrome Metabólico fue 50.8%. La media de glucosa fue 87,16 y de hemoglobina glucosilada 5,65%. Luego del análisis 92% se encontraron en el rango normal de glucemia y 92,8% de HbA1; se ubicó en el rango de prediabetes 4,8% y dentro del rango de diabetes el 2,4%. Mediante coeficiente de correlación de Pearson se determinó una correlación moderada de 0.418 entre glucemia basal y hemoglobina glucosilada. Se observó una ligera relación entre alteración del metabolismo de glucosa y Síndrome Metabólico pues 12,5% de pacientes con esta enfermedad presentaron hiperglucemia y 11% HbA1 alterada

Caracterização clínica, metabólica e hormonal de portadores de lipodistrofia parcial familiar

Dissertação (mestrado)—Universidade de Brasília, Faculdade de Ciências da Saúde, Programa de Pós-Graduação em Ciências da Saúde, 2015.

MicroRNA-23a has minimal effect on endurance exercise-induced adaptation of mouse skeletal muscle

Skeletal muscles contain several subtypes of myofibers that differ in contractile and metabolic properties. Transcriptional control of fiber-type specification and adaptation has been intensively investigated over the past several decades. Recently, microRNA (miRNA)-mediated posttranscriptional gene regulation has attracted increasing attention. MiR-23a targets key molecules regulating contractile and metabolic properties of skeletal muscle, such as myosin heavy-chains and peroxisome proliferator-activated receptor gamma, coactivator 1 alpha (PGC-1α). In the present study, we analyzed the skeletal muscle phenotype of miR-23a transgenic (miR-23a Tg) mice to explore whether forced expression of miR-23a affects markers of mitochondrial content, muscle fiber composition, and muscle adaptations induced by 4 weeks of voluntary wheel running. When compared with wild-type mice, protein markers of mitochondrial content, including PGC-1α, and cytochrome c oxidase complex IV (COX IV), were significantly decreased in the slow soleus muscle, but not the fast plantaris muscle of miR-23a Tg mice. There was a decrease in type IId/x fibers only in the soleus muscle of the Tg mice. Following 4 weeks of voluntary wheel running, there was no difference in the endurance exercise capacity as well as in several muscle adaptive responses including an increase in muscle mass, capillary density, or the protein content of myosin heavy-chain IIa, PGC-1α, COX IV, and cytochrome c. These results show that miR-23a targets PGC-1α and regulates basal metabolic properties of slow but not fast twitch muscles. Elevated levels of miR-23a did not impact on whole body endurance capacity or exercise-induced muscle adaptations in the fast plantaris muscle.

Swine influenza virus PA and neuraminidase gene reassortment into human H1N1iInfluenza Virus is associated with an altered pathogenic phenotype linked to increased MIP-2 expression

Swine are susceptible to infection by both avian and human influenza viruses, and this feature is thought to contribute to novel reassortant influenza viruses. In this study, the influenza virus reassortment rate in swine and human cells was determined. Coinfection of swine cells with 2009 pandemic H1N1 virus (huH1N1) and an endemic swine H1N2 (A/swine/Illinois/02860/09) virus (swH1N2) resulted in a 23% reassortment rate that was independent of α2,3- or α2,6-sialic acid distribution on the cells. The reassortants had altered pathogenic phenotypes linked to introduction of the swine virus PA and neuraminidase (NA) into huH1N1. In mice, the huH1N1 PA and NA mediated increased MIP-2 expression early postinfection, resulting in substantial pulmonary neutrophilia with enhanced lung pathology and disease. The findings support the notion that swine are a mixing vessel for influenza virus reassortants independent of sialic acid distribution. These results show the potential for continued reassortment of the 2009 pandemic H1N1 virus with endemic swine viruses and for reassortants to have increased pathogenicity linked to the swine virus NA and PA genes which are associated with increased pulmonary neutrophil trafficking that is related to MIP-2 expression. IMPORTANCE: Influenza A viruses can change rapidly via reassortment to create a novel virus, and reassortment can result in possible pandemics. Reassortments among subtypes from avian and human viruses led to the 1957 (H2N2 subtype) and 1968 (H3N2 subtype) human influenza pandemics. Recent analyses of circulating isolates have shown that multiple genes can be recombined from human, avian, and swine influenza viruses, leading to triple reassortants. Understanding the factors that can affect influenza A virus reassortment is needed for the establishment of disease intervention strategies that may reduce or preclude pandemics. The findings from this study show that swine cells provide a mixing vessel for influenza virus reassortment independent of differential sialic acid distribution. The findings also establish that circulating neuraminidase (NA) and PA genes could alter the pathogenic phenotype of the pandemic H1N1 virus, resulting in enhanced disease. The identification of such factors provides a framework for pandemic modeling and surveillance.

A 'slow pace of life' in Australian old-endemic passerine birds is not accompanied by low basal metabolic rates

Life history theory suggests that species experiencing high extrinsic mortality rates allocate more resources toward reproduction relative to self-maintenance and reach maturity earlier ('fast pace of life') than those having greater life expectancy and reproducing at a lower rate ('slow pace of life'). Among birds, many studies have shown that tropical species have a slower pace of life than temperate-breeding species. The pace of life has been hypothesized to affect metabolism and, as predicted, tropical birds have lower basal metabolic rates (BMR) than temperate-breeding birds. However, many temperate-breeding Australian passerines belong to lineages that evolved in Australia and share 'slow' life-history traits that are typical of tropical birds. We obtained BMR from 30 of these 'old-endemics' and ten sympatric species of more recently arrived passerine lineages (derived from Afro-Asian origins or introduced by Europeans) with 'faster' life histories. The BMR of 'slow' temperate-breeding old-endemics was indistinguishable from that of new-arrivals and was not lower than the BMR of 'fast' temperate-breeding non-Australian passerines. Old-endemics had substantially smaller clutches and longer maximal life spans in the wild than new arrivals, but neither clutch size nor maximum life span was correlated with BMR. Our results suggest that low BMR in tropical birds is not functionally linked to their 'slow pace of life' and instead may be a consequence of differences in annual thermal conditions experienced by tropical versus temperate species.

Characterizing the molecular phenotype of an Atp7a(T985I) conditional knock in mouse model for X-linked distal hereditary motor neuropathy (dHMNX)

ATP7A is a P-type ATPase essential for cellular copper (Cu) transport and homeostasis. Loss-of-function ATP7A mutations causing systemic Cu deficiency are associated with severe Menkes disease or its milder allelic variant, occipital horn syndrome. We previously identified two rare ATP7A missense mutations (P1386S and T994I) leading to a non-fatal form of motor neuron disorder, X-linked distal hereditary motor neuropathy (dHMNX), without overt signs of systemic Cu deficiency. Recent investigations using a tissue specific Atp7a knock out model have demonstrated that Cu plays an essential role in motor neuron maintenance and function, however the underlying pathogenic mechanisms of ATP7A mutations causing axonal degeneration remain unknown. We have generated an Atp7a conditional knock in mouse model of dHMNX expressing Atp7a(T985I), the orthologue of the human ATP7A(T994I) identified in dHMNX patients. Although a degenerative motor phenotype is not observed, the knock in Atp7a(T985I/Y) mice show altered Cu levels within the peripheral and central nervous systems, an increased diameter of the muscle fibres and altered myogenin and myostatin gene expression. Atp7a(T985I/Y) mice have reduced Atp7a protein levels and recapitulate the defective trafficking and altered post-translational regulatory mechanisms observed in the human ATP7A(T994I) patient fibroblasts. Our model provides a unique opportunity to characterise the molecular phenotype of dHMNX and the time course of cellular events leading to the process of axonal degeneration in this disease.