Regulation of Complement Factor H (CFH) by Multiple miRNAs in Alzheimer’s Disease (AD) Brain
暂无分享,去创建一个
[1] S. Rapoport. In vivo approaches and rationale for quantifying kinetics and imaging brain lipid metabolic pathways. , 2005, Prostaglandins & other lipid mediators.
[2] A. Bowie,et al. The interleukin-1 receptor-associated kinases: critical regulators of innate immune signalling. , 2010, Biochemical pharmacology.
[3] Nicholas T. Ingolia,et al. Mammalian microRNAs predominantly act to decrease target mRNA levels , 2010, Nature.
[4] Yong Li,et al. MicroRNAs in NF-kappaB signaling. , 2011, Journal of molecular cell biology.
[5] J. Cui,et al. Natural secretory products of human neural and microvessel endothelial cells , 2007, Molecular Neurobiology.
[6] M. Ball,et al. Gene expression profiling of 12633 genes in Alzheimer hippocampal CA1: Transcription and neurotrophic factor down‐regulation and up‐regulation of apoptotic and pro‐inflammatory signaling , 2002, Journal of neuroscience research.
[7] J. Brioni,et al. and Alzheimer's disease , 2010 .
[8] W. Lukiw,et al. miRNA-155 upregulation and complement factor H deficits in Down’s syndrome , 2012, Neuroreport.
[9] M. Ball,et al. Acyclovir or Aβ42 peptides attenuate HSV-1-induced miRNA-146a levels in human primary brain cells , 2010, Neuroreport.
[10] Á. Simonyi,et al. Phospholipases A2 and neural membrane dynamics: implications for Alzheimer’s disease , 2011, Journal of neurochemistry.
[11] F. Benfenati,et al. The synapsins: multitask modulators of neuronal development. , 2011, Seminars in cell & developmental biology.
[12] J. Mattick,et al. Non‐coding RNAs: regulators of disease , 2010, The Journal of pathology.
[13] V. Ambros. The functions of animal microRNAs , 2004, Nature.
[14] Yuhai Zhao,et al. HSV-1 infection of human brain cells induces miRNA-146a and Alzheimer-type inflammatory signaling , 2009, Neuroreport.
[15] W. Lukiw,et al. Micro-RNA speciation in fetal, adult and Alzheimer's disease hippocampus , 2007, Neuroreport.
[16] Aileen I. Pogue,et al. Retinal amyloid peptides and complement factor H in transgenic models of Alzheimer's disease , 2011, Neuroreport.
[17] N. Bazan,et al. Run-on gene transcription in human neocortical nuclei , 1998, Journal of Molecular Neuroscience.
[18] L. Abramova,et al. MicroRNA in schizophrenia: Genetic and expression analysis of miR-130b (22q11) , 2007, Biochemistry (Moscow).
[19] J M Lee,et al. A gene expression profile of Alzheimer's disease. , 2001, DNA and cell biology.
[20] M. Yáñez-Mó,et al. Membrane proteases and tetraspanins. , 2011, Biochemical Society transactions.
[21] W. Lukiw. NF-кB-regulated micro RNAs (miRNAs) in primary human brain cells , 2012, Experimental Neurology.
[22] W. Lukiw,et al. BC200 RNA in normal human neocortex, non-Alzheimer dementia (NAD), and senile dementia of the Alzheimer type (AD) , 1992, Neurochemical Research.
[23] D. Baltimore,et al. Physiological functions for brain NF-kappaB. , 2005, Trends in neurosciences.
[24] W. Lukiw,et al. Induction of specific micro RNA (miRNA) species by ROS-generating metal sulfates in primary human brain cells. , 2007, Journal of inorganic biochemistry.
[25] W. Griffin,et al. Inflammation and neurodegenerative diseases. , 2006, The American journal of clinical nutrition.
[26] N. Bazan,et al. Omega-3 Essential Fatty Acids Modulate Initiation and Progression of Neurodegenerative Disease , 2010, Molecular Neurobiology.
[27] Yuhai Zhao,et al. Differential Regulation of Interleukin-1 Receptor-associated Kinase-1 (IRAK-1) and IRAK-2 by MicroRNA-146a and NF-κB in Stressed Human Astroglial Cells and in Alzheimer Disease* , 2010, The Journal of Biological Chemistry.
[28] D. Cai. NFκB-mediated metabolic inflammation in peripheral tissues versus central nervous system , 2009 .
[29] Walter J. Lukiw,et al. An NF-κB-sensitive Micro RNA-146a-mediated Inflammatory Circuit in Alzheimer Disease and in Stressed Human Brain Cells* , 2008, Journal of Biological Chemistry.
[30] J. Alexander,et al. The simple design of complement factor H: Looks can be deceiving. , 2007, Molecular immunology.
[31] P. Sachdev,et al. Plasma biomarkers for mild cognitive impairment and Alzheimer's disease , 2009, Brain Research Reviews.
[32] W. Filipowicz,et al. Regulation of mRNA translation and stability by microRNAs. , 2010, Annual review of biochemistry.
[33] J. Cui,et al. Differential expression of miRNA-146a-regulated inflammatory genes in human primary neural, astroglial and microglial cells , 2011, Neuroscience Letters.
[34] T. Kielian,et al. Toll-like receptors in health and disease in the brain: mechanisms and therapeutic potential. , 2011, Clinical science.
[35] A. Itai,et al. Novel IκB kinase inhibitors for treatment of nuclear factor-κB-related diseases , 2011, Expert opinion on investigational drugs.
[36] Liwu Li,et al. Regulations and roles of the interleukin-1 receptor associated kinases (IRAKs) in innate and adaptive immunity , 2006, Immunologic research.
[37] P. Nelson,et al. MicroRNAs in CNS injury: Potential roles and therapeutic implications , 2011, BioEssays : news and reviews in molecular, cellular and developmental biology.
[38] M. Hemler,et al. Tetraspanin12 regulates ADAM10‐dependent cleavage of amyloid precursor protein , 2009, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.
[39] P. Gasque,et al. Complement Factor H, a Marker of Self Protects against Experimental Autoimmune Encephalomyelitis1 , 2009, The Journal of Immunology.
[40] J. Cui,et al. Cyclooxygenase-3 Gene Expression in Alzheimer Hippocampus and in Stressed Human Neural Cells , 2004, Neurochemical Research.
[41] D. Baltimore,et al. NF-κB-dependent induction of microRNA miR-146, an inhibitor targeted to signaling proteins of innate immune responses , 2006, Proceedings of the National Academy of Sciences.
[42] N. Bazan,et al. Gene Expression Analyzed by Microarrays in HSV-1 Latent Mouse Trigeminal Ganglion Following Heat Stress , 2001, Virus Genes.
[43] M. Lindsay,et al. microRNAs and the immune response. , 2008, Trends in immunology.
[44] Charles N Serhan,et al. A role for docosahexaenoic acid-derived neuroprotectin D1 in neural cell survival and Alzheimer disease. , 2005, The Journal of clinical investigation.
[45] O. Shupliakov,et al. The synapsin cycle: A view from the synaptic endocytic zone , 2007, Journal of neuroscience research.
[46] E. Kroh,et al. Argonaute2 complexes carry a population of circulating microRNAs independent of vesicles in human plasma , 2011, Proceedings of the National Academy of Sciences.
[47] Walter J. Lukiw,et al. Micro-RNA abundance and stability in human brain: Specific alterations in Alzheimer's disease temporal lobe neocortex , 2009, Neuroscience Letters.
[48] J. Ruland. Return to homeostasis: downregulation of NF-κB responses , 2011, Nature Immunology.
[49] Y. Y. Li,et al. Micro RNA-125b (miRNA-125b) function in astrogliosis and glial cell proliferation , 2010, Neuroscience Letters.
[50] Eric M Reiman,et al. Altered neuronal gene expression in brain regions differentially affected by Alzheimer's disease: a reference data set. , 2008, Physiological genomics.
[51] N. Bazan,et al. Inflammatory, Apoptotic, and Survival Gene Signaling in Alzheimer’s Disease , 2010, Molecular Neurobiology.
[52] Ivana K. Kim,et al. Genetics of Age-Related Macular Degeneration: Current Concepts, Future Directions , 2011, Seminars in ophthalmology.
[53] P. Provost,et al. Protein components of the microRNA pathway and human diseases. , 2009, Methods in molecular biology.
[54] W. Lukiw,et al. Nanomolar aluminum induces pro-inflammatory and pro-apoptotic gene expression in human brain cells in primary culture. , 2005, Journal of inorganic biochemistry.
[55] P. Spano,et al. NF-kappaB dimers in the regulation of neuronal survival. , 2009, International review of neurobiology.
[56] L. Bally-Cuif,et al. MicroRNAs in brain development and physiology , 2009, Current Opinion in Neurobiology.
[57] Yuhai Zhao,et al. Characterization of an NF-kappaB-regulated, miRNA-146a-mediated down-regulation of complement factor H (CFH) in metal-sulfate-stressed human brain cells. , 2009, Journal of inorganic biochemistry.
[58] Jessica A. Weber,et al. Export of microRNAs and microRNA-protective protein by mammalian cells , 2010, Nucleic acids research.
[59] N. Bazan,et al. Strong nuclear factor‐κB‐DNA binding parallels cyclooxygenase‐2 gene transcription in aging and in sporadic alzheimer's disease superior temporal lobe neocortex , 1998, Journal of neuroscience research.
[60] W. Lukiw. Gene Expression Profiling in Fetal, Aged, and Alzheimer Hippocampus: A Continuum of Stress-Related Signaling , 2004, Neurochemical Research.