Leukocyte preparations from children with documented evidence of MMR vaccination and confirmed diagnosis of autism were examined by several assays designed to target multiple regions of the measles virus genome sequence. No sample was found positive by any method. The assays applied were highly sensitive, specific and robust in nature, and were based on the amplification of measles virus RNA transcripts by real-time quantitative RT-PCR (QRT-PCR) as well as by conventional RT-PCR-nested PCR. The assays applied were potentially able to detect measles virus RNA down to single figure copy numbers per reaction. The amount of total nucleic acid extract of leukocytes subjected to various measles virus-specific investigations was several fold higher than minimally required of a sample where measles virus persistence is well documented. This study failed to substantiate reports of the persistence of measles virus in autistic children with development regression.
Comparative evaluation of TaqMan RT-polymerase chain reaction (PCR) methodology developed during this study with the conventional RT-PCR-nested PCR methodology developed earlier, using measles virus RNA templates derived from synthetic and natural sources against a number of primer sets belonging to various regions of the genome, revealed the existence of similar assay thresholds for both methods. An exception to this finding was, however, noted using primer sets of the N and M genes regions with RNA templates extracted from the wild type measles virus strain where the nested PCR method proved to be 10- to 100-fold more sensitive than the end points established with the N gene specific TaqMan RT-PCR method with synthetic RNA templates. These differences were not evident when the same primer sets were evaluated with RNA templates extracted from a brain sample of SSPE patient. These findings indicate that the genetic make up of measles virus strain in any given clinical specimen, in relation to the amplifying primers/probe sequences, can have impact on the overall sensitivity and specificity of the methodology applied. Both methods are equally suitable for the molecular detection of measles virus sequences in clinical specimens, although the TaqMan RT-PCR method may be preferred due to its advantages of contamination control, automation, and real-time product quantitation.
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