Transplantation of neural stem cells (NSCs) is a promising therapeutic approach for Huntington's disease (HD). HD is characterized by a progressive loss of medium-sized spiny neurons (MSNs) in the striatum. DARPP-32 (dopamine and cyclic AMP-regulated phosphoprotein, 32 kDa) is expressed in 98% of these MSNs. To establish an effective cell therapy for HD, the differentiation of human NSCs into MSNs is essential. Enhancing differentiation of NSCs is therefore an important aspect to optimize transplant efficacy. A comparison of 5 differentiation protocols indicated that the Hedgehog agonist purmorphamine (1 μM) most significantly increased the neuronal differentiation of a human striatal NSC line (STROC05). This 3-fold increase in neurons was associated with a dramatic reduction in proliferation as well as a decrease in astrocytic differentiation. A synergistic effect between purmorphamine and cell density even further increased neuronal differentiation from 20% to 30% within 7 days. Upon long-term differentiation (21 days), this combined differentiation protocol tripled the number of DARPP-32 cells (7%) and almost doubled the proportion of calbindin cells. However, there was no effect on calretinin cells. Differential expression of positional specification markers (DLX2, MASH1, MEIS2, GSH2, and NKX2.1) further confirmed the striatal identity of these differentiated cells. Purmorphamine resulted in a significant upregulation of the Hedgehog (Hh) signaling pathway (GLI1 expression). Cyclopamine, an Hh inhibitor, blocked this effect, indicating that purmorphamine specifically acts through this pathway to increase neuronal differentiation. These results demonstrate that small synthetic molecules can play a pivotal role in directing the differentiation of NSCs to optimize their therapeutic potential in HD.
BackgroundCell therapy is a potential therapeutic approach for several neurodegenetative disease, including Huntington Disease (HD). To evaluate the putative efficacy of cell therapy in HD, most studies have used excitotoxic animal models with only a few studies having been conducted in genetic animal models. Genetically modified animals should provide a more accurate representation of human HD, as they emulate the genetic basis of its etiology.ResultsIn this study, we aimed to assess the therapeutic potential of a human striatal neural stem cell line (STROC05) implanted in the R6/2 transgenic mouse model of HD. As DARPP-32 GABAergic output neurons are predominately lost in HD, STROC05 cells were also pre-differentiated using purmorphamine, a hedgehog agonist, to yield a greater number of DARPP-32 cells. A bilateral injection of 4.5x105 cells of either undifferentiated or pre-differentiated DARPP-32 cells, however, did not affect outcome compared to a vehicle control injection. Both survival and neuronal differentiation remained poor with a mean of only 161 and 81 cells surviving in the undifferentiated and differentiated conditions respectively. Only a few cells expressed the neuronal marker Fox3.ConclusionsAlthough the rapid brain atrophy and short life-span of the R6/2 model constitute adverse conditions to detect potentially delayed treatment effects, significant technical hurdles, such as poor cell survival and differentiation, were also sub-optimal. Further consideration of these aspects is therefore needed in more enduring transgenic HD models to provide a definite assessment of this cell line’s therapeutic relevance. However, a combination of treatments is likely needed to affect outcome in transgenic models of HD.
This study investigated the anti-remodeling and anti-fibrotic and effect of quercetin (QUR) in the remote non-infarcted of rats after myocardial infarction (MI). Rats were divided as control, control + QUR, MI, and MI + QUR. MI was introduced to the rats by ligating the eft anterior descending (LAD) coronary artery. All treatments were given for 30 days, daily. QUR persevered the LV hemodynamic parameters and prevented remote myocardium damage and fibrosis. Also, QUR supressed the generation of ROS, increased the nuclear levels of Nrf2, and enhanced SOD and GSH levels in the LVs of the control and MI model rats. It also reduced angiotensin II, nuclear level/activity of the nuclear factor NF-κβ p65, and protein expression of TGF-β1, α-SMA, and total/phospho-smad3 in the LVs of both groups. Concomitantly, QUR upregulated LV smad7 and BMP7. In conclusion, QUR prevents MI-induced LV remodeling by antioxidant, anti-inflammatory, and anti-fibroticα effects mediated by ROS scavenging, suppressing NF-κβ, and stimulating Nrf-2, Smad7, and BMP7.
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