GPR34 is a Gi/o protein-coupled receptor (GPCR) of the nucleotide receptor P2Y12 -like group. This receptor is highly expressed in microglia, however, the functional relevance of GPR34 in these glial cells is unknown. Previous results suggested an impaired immune response in GPR34-deficient mice infected with Cryptococcus neoformans. Here we show that GPR34 deficiency results in morphological changes in retinal and cortical microglia. RNA sequencing analysis of microglia revealed a number of differentially expressed transcripts involved in cell motility and phagocytosis. We found no differences in microglial motility after entorhinal cortex lesion and in response to laser lesion. However, GPR34-deficient microglia showed reduced phagocytosis activity in both retina and acutely isolated cortical slices. Our study identifies GPR34 as an important signaling component controlling microglial function, morphology and phagocytosis.
Searching for chemical agents and molecular targets protecting against secondary neuronal damage reflects one major issue in neuroscience. Cannabinoids limit neurodegeneration by activation of neuronal G protein-coupled cannabinoid receptor 1 (CB1 ) and microglial G protein-coupled cannabinoid receptor 2 (CB2 ). However, pharmacological experiments with CB1 /CB2 -deficient mice unraveled the existence of further, so-called non-CB1 /non-CB2 G protein-coupled receptor (GPR) subtypes. GPR55, whose function in the brain is still poorly understood, represents a novel target for various cannabinoids. Here, we investigated whether GPR55 reflects a potential beneficial target in neurodegeneration by using the excitotoxicity in vitro model of rat organotypic hippocampal slice cultures (OHSC). l-α-Lysophosphatidylinositol (LPI), so far representing the most selective agonist for GPR55, protected dentate gyrus granule cells and reduced the number of activated microglia after NMDA (50 µM) induced lesions. The relevance of GPR55 activation for LPI-mediated neuroprotection was determined by using Gpr55 siRNA. Microglia seems to mediate the observed neuroprotection since their depletion in OHSC attenuated the beneficial effects of LPI. Moreover, LPI alone induced microglia chemotaxis but conversely significantly attenuated ATP triggered microglia migration. These effects seemed to be independent from intracellular Ca(2+) and p38 or p44/p42 MAPK phosphorylation. In conclusion, this study unmasked a yet unknown role for GPR55 in neuroprotection driven by LPI-mediated modulation of microglia function.
The non-viral delivery of small RNA molecules like siRNAs still poses a major bottleneck for their successful application in vivo. This is particularly true with regard to crossing physiological barriers upon systemic administration. We have previously established polyethylenimine (PEI)-based complexes for therapeutic RNA formulation. These nanoplexes mediate full RNA protection against nucleolytic degradation, delivery to target tissues as well as cellular uptake, intracellular release and therapeutic efficacy in preclinical in vivo models. We herein present data on different polyplex modifications for the defined improvement of physicochemical and biological nanoparticle properties and for targeted delivery. (i) By non-covalent modifications of PEI polyplexes with phospholipid liposomes, ternary complexes ("lipopolyplexes") are obtained that combine the favorable features of PEI and lipid systems. Decreased cytotoxicity and highly efficient delivery of siRNA is achieved. Some lipopolyplexes also allow prolonged storage, thus providing formulations with higher stability. (ii) Novel tyrosine modifications of low molecular weight PEI offer further improvement of stability, biocompatibility, and knockdown efficacy of resulting nanoparticles. (iii) For ligand-mediated uptake, the shielding of surface charges is a critical requirement. This is achieved by PEI grafting with polyethylene glycol (PEG), prior to covalent coupling of anti-HER1 antibodies (Erbitux®) as ligand for targeted delivery and uptake. Beyond tumor cell culture, analyses are extended towards tumor slice cultures from tumor xenograft tissues which reflect more realistically the in vivo situation. The determination of siRNA-mediated knockdown of endogenous target genes, i.e., the oncogenic survival factor survivin and the oncogenic receptor tyrosine kinase HER2, reveals nanoparticle penetration and biological efficacy also under intact tissue and stroma conditions.
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