Abstract
The vascular endothelial growth factor (VEGF) is well known for its wide-ranging functions, not only in the vascular system, but also in the central (CNS) and peripheral nervous system (PNS). To study the role of VEGF in neuronal protection, growth and maturation processes have recently attracted much interest. These effects are mainly mediated by VEGF receptor 2 (VEGFR-2). Current studies have shown the age-dependent expression of VEGFR-2 in Purkinje cells (PC), promoting dendritogenesis in neonatal, but not in mature stages. We hypothesize that microRNAs (miRNA/miR) might be involved in the regulation of VEGFR-2 expression during the development of PC. In preliminary studies, we performed a miRNA profiling and identified miR204-5p as a potential regulator of VEGFR-2 expression. In the recent study, organotypic slice cultures of rat cerebella (postnatal day (p) 1 and 9) were cultivated and VEGFR-2 expression in PC was verified via immunohistochemistry. Additionally, PC at age p9 and p30 were isolated from cryosections by laser microdissection (LMD) to analyse VEGFR-2 expression by quantitative RT-PCR. To investigate the influence of miR204-5p on VEGFR-2 levels in PC, synthetic constructs including short hairpin (sh)-miR204-5p cassettes (miRNA-mimics), were microinjected into PC. The effects were analysed by confocal laser scanning microscopy (CLSM) and morphometric analysis. For the first time, we could show that miR204-5p has a negative effect on VEGF sensitivity in juvenile PC, resulting in a significant decrease of dendritic growth compared to untreated juvenile PC. In mature PC, the overexpression of miR204-5p leads to a shrinkage of dendrites despite VEGF treatment. The results of this study illustrate, for the first time, which miR204-5p expression has the potential to play a key role in cerebellar development by inhibiting VEGFR-2 expression in PC.
Highlights
We directly investigated the effect of miR204-5p on the vascular endothelial growth factor (VEGF) receptor expression in Purkinje cells (PC) of organotypic cerebellar cultures, since it is possible to imitate the effect of miRNAs on cells by means of artificial RNA sequences
The investigation and morphometric analysis of neonatal, juvenile, and mature PC in rat cerebellar roller tube slice cultures was a key trial to observe their response to VEGF depending on miR204-5p microinjection
PC functionality and structure in organotypic slices has already been proven in previous studies [16,48,49], comparability between PC development in organotypic slices and in vivo had to be ensured
Summary
At least nine different isoforms of VEGF have been identified so far, all generated as a result of alternate mRNA splicing [4]. Best known for its role in angiogenesis and vasculogenesis [6], VEGF is especially expressed under hypoxic, ischemic, or traumatic conditions [7] to promote vascular development, permeability, and endothelial outspreading [6,8]. This growth factor has gained clinical relevance due to its tumour promoting effects, which make it a target of tumour therapeutics such as the monoclonal antibody bevacizumab [9]. This is used against age-related macular degeneration due to subretinal neovascularisation [10]
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