Project description:Untreated or 20 J/m2 UVC treated RKO cells were collected and RNA from either whole-cell lysates or from polysomal fractions was extracted at 0 (untreated), 3, 6, and 12 h after treatment. RNA from whole-cell lysates or each of 11 polysomal fraction was reverse-transcribed in the presence of [α-33P]dCTP and the radiolabeled product used to hybridize human cDNA arrays. The experiment was repeated using three independent sample sets. The samples were named T-c-A, T-c-B, T-c-C, T-3h-A, T-3h-B, T-3h-C, T-6h-A, T-6h-B, T-6h-C, T-12h-A, T-12h-B, T-12h-C, P-c-1-A, P-c-2-A, P-c-3-A, P-c-4-A, P-c-5-A, P-c-6-A, P-c-7-A, P-c-8-A, P-c-9-A, P-c-10-A, P-c-11-A, P-c-1-B, P-c-2-B, P-c-3-B, P-c-4-B, P-c-5-B, P-c-6-B, P-c-7-B, P-c-8-B, P-c-9-B, P-c-10-B, P-c-11-B, P-c-2-C, P-c-3-C, P-c-4-C, P-c-5-C, P-c-6-C, P-c-7-C, P-c-8-C, P-c-9-C, P-c-10-C, P-c-11-C, P-3h-1-A, P-3h-2-A, P-3h-3-A, P-3h-4-A, P-3h-5-A, P-3h-6-A, P-3h-7-A, P-3h-8-A, P-3h-9-A, P-3h-10-A, P-3h-11-A, P-3h-1-B, P-3h-2-B, P-3h-3-B, P-3h-4-B, P-3h-5-B, P-3h-6-B, P-3h-7-B, P-3h-8-B, P-3h-9-B, P-3h-10-B, P-3h-11-B, P-3h-1-C, P-3h-2-C, P-3h-3-C, P-3h-4-C, P-3h-6-C, P-3h-7-C, P-3h-8-C, P-3h-9-C, P-3h-10-C, P-3h-11-C, P-6h-1-A, P-6h-2-A, P-6h-3-A, P-6h-4-A, P-6h-5-A, P-6h-6-A, P-6h-7-A, P-6h-8-A, P-6h-9-A, P-6h-10-A, P-6h-11-A, P-6h-1-B, P-6h-2-B, P-6h-3-B, P-6h-4-B, P-6h-5-B, P-6h-6-B, P-6h-7-B, P-6h-8-B, P-6h-9-B, P-6h-10-B, P-6h-11-B, P-6h-1-C, P-6h-2-C, P-6h-3-C, P-6h-4-C, P-6h-5-C, P-6h-6-C, P-6h-7-C, P-6h-8-C, P-6h-9-C, P-6h-10-C, P-6h-11-C, P-12h-1-A, P-12h-2-A, P-12h-3-A, P-12h-4-A, P-12h-5-A, P-12h-6-A, P-12h-7-A, P-12h-8-A, P-12h-9-A, P-12h-10-A, P-12h-11-A, P-12h-1-B, P-12h-2-B, P-12h-3-B, P-12h-4-B, P-12h-5-B, P-12h-6-B, P-12h-7-B, P-12h-8-B, P-12h-9-B, P-12h-10-B, P-12h-11-B, P-12h-1-C, P-12h-2-C, P-12h-3-C, P-12h-6-C, P-12h-7-C, P-12h-8-C, P-12h-9-C, P-12h-10-C, P-12h-11-C. ‘T’ represents total RNA, ‘P’ represents RNA from polysomes fractions, ‘c’ represents RNA from untreated cells, ‘3h’ represents RNA from cells collected 3 h after UVC treatment, ‘6h’ represents RNA from cells collected 6 h after UVC treatment, ‘12h’ represents RNA from cells collected 12 h after UVC treatment. The numbers 1-11 correspond to the each polysomal fraction. The letters A, B and C correspond to the three independent experimental datasets. Keywords = post-transcriptional / translation / nascent protein synthesis / stress response / ribonomics Keywords: ordered

Project description:Astrocytes are essential cells of the central nervous system, characterized by dynamic relationships with neurons that range from functional metabolic interactions and regulation of neuronal firing activities, to the release of neurotrophic and neuroprotective factors. In Parkinson’s disease (PD), dopaminergic neurons are a vulnerable population progressively lost during the course of the disease, but the effects of PD on astrocytes and astrocyte-to-neuron communication remains mostly unknown. This study focuses on the effects of the PD-related mutation LRRK2 G2019S in astrocytes, using patient-derived induced pluripotent stem cells. We report the alteration of extracellular vesicle (EV) biogenesis in astrocytes, and we identify the abnormal accumulation of key PD-related proteins within multi vesicular bodies (MVBs). We found that dopaminergic neurons internalize astrocyte-secreted EVs but LRRK2 G2019S EVs are abnormally enriched in the neurites and provide only marginal neurotrophic support to dopaminergic neurons. Thus, dysfunctional astrocyte-to-neuron communication via altered EV biological properties could participate in the progression of PD.

Project description:Gene expression profiles of human immature dendritic cells after 3h, 6h, 9h and 12h of co-cultivation with Aspergillus fumigatus were compared to expression profiles from human immature dendritic cells after 3h, 6h, 9h and 12h of cultivation.

Project description:Insulin promotes LTP in mice by switching the energy substrate preference of astrocytes to fatty acids [Rattus]

Project description:Brain transcriptome at 0h, 1h, 3h, 6h, 12h, 24h, 48h after hypoxia stress

Project description:Untreated or 20 J/m2 UVC treated RKO cells were collected and RNA from either whole-cell lysates or from polysomal fractions was extracted at 0 (untreated), 3, 6, and 12 h after treatment. RNA from whole-cell lysates or each of 11 polysomal fraction was reverse-transcribed in the presence of [α-33P]dCTP and the radiolabeled product used to hybridize human cDNA arrays. The experiment was repeated using three independent sample sets. The samples were named T-c-A, T-c-B, T-c-C, T-3h-A, T-3h-B, T-3h-C, T-6h-A, T-6h-B, T-6h-C, T-12h-A, T-12h-B, T-12h-C, P-c-1-A, P-c-2-A, P-c-3-A, P-c-4-A, P-c-5-A, P-c-6-A, P-c-7-A, P-c-8-A, P-c-9-A, P-c-10-A, P-c-11-A, P-c-1-B, P-c-2-B, P-c-3-B, P-c-4-B, P-c-5-B, P-c-6-B, P-c-7-B, P-c-8-B, P-c-9-B, P-c-10-B, P-c-11-B, P-c-2-C, P-c-3-C, P-c-4-C, P-c-5-C, P-c-6-C, P-c-7-C, P-c-8-C, P-c-9-C, P-c-10-C, P-c-11-C, P-3h-1-A, P-3h-2-A, P-3h-3-A, P-3h-4-A, P-3h-5-A, P-3h-6-A, P-3h-7-A, P-3h-8-A, P-3h-9-A, P-3h-10-A, P-3h-11-A, P-3h-1-B, P-3h-2-B, P-3h-3-B, P-3h-4-B, P-3h-5-B, P-3h-6-B, P-3h-7-B, P-3h-8-B, P-3h-9-B, P-3h-10-B, P-3h-11-B, P-3h-1-C, P-3h-2-C, P-3h-3-C, P-3h-4-C, P-3h-6-C, P-3h-7-C, P-3h-8-C, P-3h-9-C, P-3h-10-C, P-3h-11-C, P-6h-1-A, P-6h-2-A, P-6h-3-A, P-6h-4-A, P-6h-5-A, P-6h-6-A, P-6h-7-A, P-6h-8-A, P-6h-9-A, P-6h-10-A, P-6h-11-A, P-6h-1-B, P-6h-2-B, P-6h-3-B, P-6h-4-B, P-6h-5-B, P-6h-6-B, P-6h-7-B, P-6h-8-B, P-6h-9-B, P-6h-10-B, P-6h-11-B, P-6h-1-C, P-6h-2-C, P-6h-3-C, P-6h-4-C, P-6h-5-C, P-6h-6-C, P-6h-7-C, P-6h-8-C, P-6h-9-C, P-6h-10-C, P-6h-11-C, P-12h-1-A, P-12h-2-A, P-12h-3-A, P-12h-4-A, P-12h-5-A, P-12h-6-A, P-12h-7-A, P-12h-8-A, P-12h-9-A, P-12h-10-A, P-12h-11-A, P-12h-1-B, P-12h-2-B, P-12h-3-B, P-12h-4-B, P-12h-5-B, P-12h-6-B, P-12h-7-B, P-12h-8-B, P-12h-9-B, P-12h-10-B, P-12h-11-B, P-12h-1-C, P-12h-2-C, P-12h-3-C, P-12h-6-C, P-12h-7-C, P-12h-8-C, P-12h-9-C, P-12h-10-C, P-12h-11-C. ‘T’ represents total RNA, ‘P’ represents RNA from polysomes fractions, ‘c’ represents RNA from untreated cells, ‘3h’ represents RNA from cells collected 3 h after UVC treatment, ‘6h’ represents RNA from cells collected 6 h after UVC treatment, ‘12h’ represents RNA from cells collected 12 h after UVC treatment. The numbers 1-11 correspond to the each polysomal fraction. The letters A, B and C correspond to the three independent experimental datasets. Keywords = post-transcriptional / translation / nascent protein synthesis / stress response / ribonomics Keywords: ordered

Project description:There are seedling samples (high CO2 exposure of 0h, 2h, 6h, 12h, 1d, 3d, 7d, 14d) with duplicates in two chambers.

Project description:Expression Profiles of SUM149 cell treated by ACY1215 at 0h, 3h, 6h and 12h by Agilent SurePrint G3 Human GE v3 8x60K.

Project description:Given the widespread use of insecticides in the environment, it is important to perform studies evaluating their potential effects on humans. Organophosphate insecticides, such as chlorpyrifos, are being phased out; however, the use of pyrethroids in household pest control is increasing. While chlorpyrifos is relatively well studied, much less is known about the potential neurotoxicity of cyfluthrin and other pyrethroids. To gain insights into the neurotoxicity of cyfluthrin, we compared and evaluated the toxicity profiles of chlorpyrifos and cyfluthrin in primary human fetal astrocytes. We found that at the same concentrations, cyfluthrin exerts as great as, or greater toxic effects on the growth, survival, and proper functioning of human astrocytes. By using microarray gene expression profiling, we systematically identified and compared the potential molecular targets of chlorpyrifos and cyfluthrin, at a genome-wide scale. We found that chlorpyrifos and cyfluthrin affect a similar number of transcripts. These targets include molecular chaperones, signal transducers, transcriptional regulators, transporters, and those involved in behavior and development. Further computational and biochemical analyses show that cyfluthrin and chlorpyrifos upregulate certain targets of the interferon-gamma and insulin-signaling pathways and that they increase the protein levels of activated extracellular signal-regulated kinase 1/2, a key component of insulin signaling; interleukin 6, a key inflammatory mediator; and glial fibrillary acidic protein, a marker of inflammatory astrocyte activation. These results suggest that inflammatory activation of astrocytes might be an important mechanism underlying neurotoxicity of both chlorpyrifos and cyfluthrin.

Project description:Neurotrophic factors (NTFs) are a relevant group of secreted proteins that modulate growth, differentiation, repair, and survival of neurons; playing a role in the maintenance of the synaptic unions, dendrites and axons; also, being crucial for peripheral nervous system development and regulating plasticity in the adult central nervous system. On the other hand, insulin-like growth factor 1 (IGF-1) has been ascertained multiple beneficial actions in the brain: neuro-development, -protection, -genesis and plasticity. To further investigate the possible mechanisms underlying IGF-1 deficiency in the establishment of neurological disease, microarray and RT-qPCR gene expression analyses coupled with in silico processing were performed in an experimental model of partial IGF-1 deficiency. Results show that the mere IGF-1 deficiency seems to be responsible for an altered expression of genes coding for neurotrophic factors (particularly ciliary neurotrophic factor and mesencephalic astrocyte-derived neurotrophic factor), their receptors and signaling pathways (specially RET). The presented findings support that IGF-1 deficiency might be involved in the establishment and progression of neurodegenerative disorders.