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  • Increased RNA levels of the 25 kDa synaptosomal associated protein in brain samples of adult patients with Down Syndrome.

Increased RNA levels of the 25 kDa synaptosomal associated protein in brain samples of adult patients with Down Syndrome.

Neuroscience letters (2002-12-25)
Susanne Greber-Platzer, Christine Fleischmann, Christa Nussbaumer, Nigel Cairns, Gert Lubec
ABSTRACT

The synaptosomal associated protein of 25kDa (SNAP-25) is widely distributed in the brain and reduced in neurodegenerative diseases. In a previous paper we have shown reduced amounts of SNAP-25 protein in adult Down Syndrome (DS) brain. Neuronal cell death and downregulation at the transcriptional level may be responsible for the decrease. Therefore SNAP-25 mRNA levels were determined in frontal cortex and cerebellum of adult DS by a competitive reverse transcription-polymerase chain reaction. We found significantly increased mRNA levels in DS either related to 10 ng total RNA (P < 0.05 level in cerebellum: DS 2622 +/- 1081 attogr mean +/- SEM and controls 154 +/- 37 attogr. mean +/- SEM) or normalized versus the house keeping gene beta-actin (P < 0.05 level in frontal cortex: DS 1324 +/- 504 attogr. mean +/- SEM and control 131 +/- 32 attogr. mean +/- SEM; P<0.01 in cerebellum: DS 632 +/- 189 attogr. mean +/- SEM and control 21 +/- 2 attogr. mean +/- SEM). The main finding of this study shows elevated mRNA levels of SNAP-25 in adult DS brain whereas histological and protein-chemical evidence for decreased synaptosomal structures including SNAP-25 in a comparable cohort has been reported. We suggest compensatory mechanisms for the upregulation at the transcriptional level. We propose that SNAP-25 as many other brain proteins are regulated by protein stability rather than at the mRNA level.