Dopamine (DA) neurons in sporadic Parkinson disease (PD) display dysregulated gene expression networks and signaling pathways that are implicated in PD pathogenesis. Micro (mi)RNAs are regulators of gene expression, which could be involved in neurodegenerative diseases. We determined the miRNA profiles in laser microdissected DA neurons from postmortem sporadic PD patients’ brains and age-matched controls. DA neurons had a distinctive miRNA signature and a set of miRNAs was dysregulated in PD. Bioinformatics analysis provided evidence for correlations of miRNAs with signaling pathways relevant to PD, including an association of miR-126 with insulin/IGF-1/PI3K signaling. In DA neuronal cell systems, enhanced expression of miR-126 impaired IGF-1 signaling and increased vulnerability to the neurotoxin 6-OHDA by downregulating factors in IGF-1/PI3K signaling, including its targets p85β, IRS-1, and SPRED1. Blocking of miR-126 function increased IGF-1 trophism and neuroprotection to 6-OHDA. Our data imply that elevated levels of miR-126 may play a functional role in DA neurons and in PD pathogenesis by downregulating IGF-1/PI3K/AKT signaling and that its inhibition could be a mechanism of neuroprotection.
Dysfunction of growth factor (GF) activities contributes to the decline and death of neurons during aging and in neurodegenerative diseases. In addition, neurons become more resistant to GF signaling with age. Micro (mi)RNAs are posttranscriptional regulators of gene expression that may be crucial to age- and disease-related changes in GF functions. miR-126 is involved in regulating Insulin/IGF-1/PI3K/AKT and ERK signaling and we recently demonstrated a functional role of miR-126 in dopamine neuronal cell survival in models of Parkinson’s disease (PD)-associated toxicity. Here, we show that elevated levels of miR-126 increase neuronal vulnerability to ubiquitous toxicity mediated by staurosporine (STS) or Alzheimer’s disease (AD)-associated amyloid beta 1-42 peptides (Aβ1-42). The neuroprotective factors IGF-1, NGF, BDNF, and soluble amyloid precursor protein α (sAPPα) could diminish but not abrogate the toxic effects of miR-126. In miR-126 overexpressing neurons derived from Tg6799 familial AD model mice, we observed an increase in Aβ1-42 toxicity but, surprisingly, both Aβ1-42 and miR-126 promoted neurite sprouting. Pathway analysis revealed that miR-126 overexpression downregulated elements in the GF/PI3K/AKT and ERK signaling cascades, including AKT, GSK-3β, ERK, their phosphorylation, and the miR-126 targets IRS-1 and PIK3R2. Finally, inhibition of miR-126 was neuroprotective against both STS and Aβ1-42 toxicity. Our data provide evidence for a novel mechanism of regulating GF/PI3K signaling in neurons by miR-126 and suggest that miR-126 may be an important mechanistic link between metabolic dysfunction and neurotoxicity in general, during aging, and in the pathogenesis of specific neurological disorders, including PD and AD.
Introduction The use of TLR9 agonists as immunomodulators is supported by preclinical and clinical studies, showing their anti-tumor effect by enhancing both cellular and humoral immune responses. So far, two different families of DNA molecules containing non-methylated CG-motifs for TLR9 activation have been established: Dumbbell-shaped dSLIM (R) molecules are protected against exonucleolytic degradation by their covalently-closed, natural phosphodiester (PO) backbone. In contrast, single-stranded, oligodeoxynucleotides (CpG-ODN) are most commonly chemicallystabilized by phosphorothioates (PTO) in their phosphate moieties. PTO modification, however, produce off-target effects in immune cell populations and have resulted in an unfavorable risk-to-benefit ratio.Methods To avoid the off-target effects of PTO-modified CpG-ODN, linear single-stranded ODN were synthezised using L-deoxyribonucleotides at their 3'-ends, which are the natural enantiomers of Ddeoxyribonucleotides. The vast majority of deoxyribose in present organisms are D-deoxyribose, thus co-evolved nucleases are blind for L-deoxyribose thereby leaving L-protected ODN intact. We selected nucleotide sequences of such L-protected, CG-motif containing, single-stranded ODN, EnanDIM (R) , for high secretion of IFN-alpha and IP-10 from human peripheral blood mononuclear cells (PBMC). In a maximum feasible dose approach in CD-1 mice EnanDIM (R) doses of 10 to 50 mg per mice were injected subcutaneously to evaluate the acute toxicity and immunomodulatory properties of EnanDIM (R) molecules in vivo.Results EnanDIM581 and EnanDIM532 were chosen since they caused high secretion of IFN-alpha and IP-10 from human PBMC and resulted in a strong activation of monocytes, NK cells and plasmacytoid dendritic cells (pDC) in vitro. Notably, both showed a distinct immune activation pattern, with the highest secretion of IFNalpha by EnanDIM581 and the strongest maturation of TLR9-bearing pDC by EnanDIM532. EnanDIM744, comprising EnanDIM581 with additional 5'-end L-nucleotide protection and exhibiting an immune activation pattern similar to EnanDIM581, was selected as third EnanDIM (R) for in vivo studies. In the maximum feasible dose approach, safety assessments were performed throughout the study period and no mortality, clinical signs and body weight changes were observed, despite the fact that extremely high doses of app. 300 to 1700 mg/kg were used. A gross necropsy consisting of a macroscopic organ evaluation at day 15 revealed also no toxicity. Regarding immune activation, increased levels of IP-10 in serum were observed 24 hours after injection but not after 15 days confirming that L-nucleotides in EnanDIM (R) do not change the kinetic profile known from other DNA-based TLR9 agonists.Conclusions EnanDIM (R) , a new family of TLR9 agonists with conformation-mediated nuclease-resistance, broadly activates the immune system in vitro. Maximal feasible doses of EnanDIM (R) resulted in no signs of toxicity and confirmed immunomodulatory effects in vivo. Therefore En...
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