Differential brain, but not serum VEGF levels in a genetic rat model of depression

doi:10.1016/j.neulet.2010.02.063

Neuroscience Letters

Volume 474, Issue 1, 19 April 2010, Pages 13-16

https://doi.org/10.1016/j.neulet.2010.02.063 Get rights and content

Abstract

Compared to the classical monoamine hypotheses focus on neuroplasticity is a major new approach in studies of depression and antidepressants. Recent studies have demonstrated that vascular endothelial growth factor (VEGF) is regulated by antidepressant treatment in rodents. However, in depressive patients no significant changes were found in the serum VEGF levels compared to control subjects. To our knowledge, brain and serum VEGF levels have never been reported in parallel for any psychiatric disease model. That prompted us to examine the levels of VEGF in serum, hippocampus, frontal cortex, corpus striatum, and hypothalamus in male Flinders Sensitive Line (FSL) and Flinders Resistant Line (FRL), a genetic rat model of depression. The VEGF levels were identical in the FSL and the FRL rats in serum, corpus striatum, and hypothalamus. In hippocampus and frontal cortex, the VEGF levels were significantly decreased in the FSL rats compared to the FRL rats. The results may add to the hypothesis that altered expression of growth factors/neurotrophic factors are related to the pathophysiology of depression.

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Acknowledgements

B. Elfving was supported by the Danish Research Council, Ministry of Science, Technology and Innovation. The study was supported by the Augustinus Foundation, Aase and Ejnar Danielsens Foundation, and sawmill owner Jeppe Juhl and Ovita Juhl Memorial Foundation. We thank David H Overstreet for providing us with the initial FSL/FRL breeding pairs.

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Differential brain, but not serum VEGF levels in a genetic rat model of depression

Abstract

Section snippets

Acknowledgements

J. Neurosci. Methods

Clin. Biochem.

Schizophr. Res.

Psychoneuroendocrinology

Neurosci. Biobehav. Rev.

Prog. Neuropsychopharmacol. Biol. Psychiatry

Normalization of real-time quantitative reverse transcription-PCR data: a model-based variance estimation approach to identify genes suited for normalization, applied to bladder and colon cancer data sets

Cancer Res.

Reference genes for normalization: a study of rat brain tissue

Synapse