Development of a new LAMP assay for the detection of CSFV strains from Cuba: a proof-of-concept study.

Classical swine fever (CSF) is a devastating animal disease of great economic impact worldwide. In many countries, CSF has been endemic for decades, and vaccination of domestic pigs is one of the measures to control the disease. Consequently, differentiating infected from vaccinated animals by antibody ELISA screening is not applicable. In some countries, such as Cuba, lack of molecular techniques for sensitive, rapid and reliable detection of virus genomes is a critical point. To overcome this problem, an easy-to-use one-tube assay based on the loop-mediated isothermal amplification (LAMP) principle has been developed for detection of the genome of CSF virus (CSFV) of endemic Cuban genotype 1.4 isolates. The assay reliably detected recent isolates from three different regions of Cuba with an analytical sensitivity 10-100 times lower than that of quantitative reverse transcription RT-qPCR. Diagnostic test sensitivity was examined using reference sera from two groups of pigs experimentally infected with Cuban virulent strain CSF0705 "Margarita" and the recent field isolate CSF1058 "Pinar del Rio". Differences in pathogenicity of the two viruses were reflected in the clinical course of disease as well as in virus loads of blood samples. Low viral RNA loads in samples from pigs infected with the field isolate caused serious detection problems in RT-LAMP as well as in RT-qPCR. Thus, it will be necessary in future research to focus on targeted sampling of diseased animals and to restrict diagnosis to the herd level in order to establish LAMP as an efficient tool for diagnosing CSF under field conditions.

Recent advances in the development of recombinant vaccines against classical swine fever virus: cellular responses also play a role in protection.

Classical swine fever virus (CSFV) is the causative agent of one of the most devastating porcine haemorrhagic viral diseases, classical swine fever (CSF). CSFV mainly infects endothelial cells and macrophages and at the same time promotes bystander apoptosis of the surrounding T cells, causing strong immune suppression and high mortality rates. Most animals experience acute infection, during which they either die or survive by producing neutralising antibodies to the virus. However, in a few cases, the impaired immune system cannot control viral progression, leading to chronic infection. Efficient live attenuated vaccines against CSFV exist and are routinely used only in endemic countries. The ability of these vaccines to replicate in the host, even at very low rates, makes it extremely difficult to distinguish vaccinated from infected animals, favouring a restricted policy regarding vaccination against CSFV in non-endemic countries. There is a clear need for efficient and safer marker vaccines to assist in the control of future CSF outbreaks. In this review article, some of the most recent advances in the field of recombinant vaccines against CSFV are presented and the nature of the protective immune responses they induce is discussed.