Análisis virológico y epidemiológico del síndrome de despoblamiento de las colmenas en España: estudio de causas y consecuencias

La abeja de la miel Apis mellifera es la principal especie polinizadora empleada por el hombre para aumentar la productividad de los cultivos, y además desempeña una importante función en el mantenimiento de la biodiversidad en todo el mundo. En las últimas décadas, se ha apreciado un incremento de la mortalidad de las colonias de abejas en numerosas regiones, lo que ha llevado a generar una gran alarma debido a sus potenciales repercusiones económicas y medioambientales. Este fenómeno, caracterizado por no tener una causa conocida, se ha clasificado principalemente en “Síndrome de Despoblamiento de las Colmenas” (SDC), cuando presenta una sintomatología concreta de despoblamiento de abejas adultas, o simplemente “mortalidad invernal”, cuando las colmenas no superan el invierno por causas no identificadas. Estas pérdidas se han observado también en España, el país con mayor censo de colmenas de la Unión Europea e importante productor de miel. Esta situación ha generado la necesidad de estudiar las causas de tales pérdidas. Actualmente se considera que no existe una causa única que explique esta mortalidad sino que, por el contrario, se trata de un fenómeno en el que la interacción de varios factores afecta a las colonias. Entre estos factores considerados ‘de riesgo’ destacan la mala nutrición y la escasez de recursos, la climatología adversa y el cambio climático, la exposición a pesticidas neonicotinoides empleados en los cultivos donde pecorean las abejas, la presencia de depredadores naturales y especies invasoras y la acción de los patógenos presentes en las colmenas. Entre los patógenos que pueden afectar a la abejas, destacan los virus porque a pesar de conocerse su amplia distribución y prevalencia en las colmenas y haber sido asociados con eventos de mortalidad de colonias de abejas, aún son muchos los interrogantes sobre su patogenia, cómo se ven afectados por otros factores y cómo son capaces de alterar el equilibrio con el hospedador produciendo estados patológicos...

Assessment of genetic diversity of zoonotic Brucella spp. recovered from livestock in Egypt using multiple locus VNTR analysis

Brucellosis is endemic in most parts of Egypt, where it is caused mainly by Brucella melitensis biovar 3, and affects cattle and small ruminants in spite of ongoing efforts devoted to its control. Knowledge of the predominant Brucella species/strains circulating in a region is a prerequisite of a brucellosis control strategy. For this reason a study aiming at the evaluation of the phenotypic and genetic heterogeneity of a panel of 17 Brucella spp. isolates recovered from domestic ruminants (cattle, buffalo, sheep, and goat) from four governorates during a period of five years (2002-2007) was carried out using microbiological tests and molecular biology techniques (PCR, MLVA-15, and sequencing). Thirteen strains were identified as B. melitensis biovar 3 while all phenotypic and genetic techniques classified the remaining isolates as B. abortus (n = 2) and B. suis biovar 1 (n = 2). MLVA-15 yielded a high discriminatory power (h = 0.801), indicating a high genetic diversity among the B. melitensis strains circulating among domestic ruminants in Egypt. This is the first report of the isolation of B. suis from cattle in Egypt which, coupled with the finding of B. abortus, suggests a potential role of livestock as reservoirs of several zoonotic Brucella species in the region.

Effect of Preventive Chlamydia abortus Vaccination in Offspring Development in Sheep Challenged Experimentally

Ovine enzootic abortion, caused by Chlamydia abortus, leads to important economic losses worldwide. In addition to reproductive failures, infection may impact lamb growth during the first weeks after birth, yet this effect has not been well characterized. Vaccination can help to control the disease but variable efficacy values have been described, possibly related with factors associated with the host, the vaccine, the parameter used for efficacy determination and the challenge conditions. In this context, we evaluated the efficacy of an inactivated standard commercial vaccine and a 1/2 diluted dose in pregnant sheep challenged with C. abortus by examining multiple indicators ofvaccine effect (including incidence of reproductive failures, bacterial excretion, and evolution of weight gain of viable lambs during the first month of life). Three groups of ewes [control non-vaccinated, C (n = 18); vaccinated with standard dose, SV (n = 16) and vaccinated with 1/2 dose, DV (n = 17)], were challenged approximately 90 days post-mating and tested using direct PCR (tissue samples and vaginal swabs) and ELISA (serum) until 31 days post-reproductive outcome. There were not significant differences in the proportions of reproductive failures or bacterial shedding after birth/abortion regardless the vaccination protocol. However, a beneficial effect of vaccination on offspring growth was detected in both vaccinated groups compared with the controls, with a mean increase in weight measured at 30 days of life of 1.5 and 2.5 Kg (p = 0.056) and an increase in the geometric mean of the daily gain of 8.4 and 9.7% in lambs born from DV and SV ewes compared to controls, respectively. Our results demonstrate the effect of an inactivated vaccine in the development of the offspring of C. abortus-infected ewes at a standard and a diluted dose, an interesting finding given the difficulty in achieving sufficient antigen concentration in the production of EAE-commercial vaccines.