Kelly A. Jones scite author profile

Substantial progress has been made toward understanding the genetic architecture, cellular substrates, brain circuits and endophenotypic profiles of neuropsychiatric disorders, including autism spectrum disorders (ASD), schizophrenia and Alzheimer’s disease. Recent evidence implicates spiny synapses as important substrates of pathogenesis in these disorders. Although synaptic perturbations are not the only alterations relevant for these diseases, understanding the molecular underpinnings of spine pathology may provide insight into their etiologies and may reveal new drug targets. Here we discuss recent neuropathological, genetic, molecular and animal model studies that implicate structural alterations at spiny synapses in the pathogenesis of major neurological disorders, focusing on ASD, schizophrenia and Alzheimer’s disease as representatives of these categories across different ages of onset. We stress the importance of reverse translation, collaborative and multidisciplinary approaches, and the study of the spatio-temporal roles of disease molecules in the context of synaptic regulatory pathways and neuronal circuits that underlie disease endophenotypes.

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Epidemiology of chronic musculoskeletal pain

McBeth

Jones

2007

Best Practice & Research Clinical Rheumatology

514

333

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Influenza in Migratory Birds and Evidence of Limited Intercontinental Virus Exchange

et al. 2007

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Migratory waterfowl of the world are the natural reservoirs of influenza viruses of all known subtypes. However, it is unknown whether these waterfowl perpetuate highly pathogenic (HP) H5 and H7 avian influenza viruses. Here we report influenza virus surveillance from 2001 to 2006 in wild ducks in Alberta, Canada, and in shorebirds and gulls at Delaware Bay (New Jersey), United States, and examine the frequency of exchange of influenza viruses between the Eurasian and American virus clades, or superfamilies. Influenza viruses belonging to each of the subtypes H1 through H13 and N1 through N9 were detected in these waterfowl, but H14 and H15 were not found. Viruses of the HP Asian H5N1 subtypes were not detected, and serologic studies in adult mallard ducks provided no evidence of their circulation. The recently described H16 subtype of influenza viruses was detected in American shorebirds and gulls but not in ducks. We also found an unusual cluster of H7N3 influenza viruses in shorebirds and gulls that was able to replicate well in chickens and kill chicken embryos. Genetic analysis of 6,767 avian influenza gene segments and 248 complete avian influenza viruses supported the notion that the exchange of entire influenza viruses between the Eurasian and American clades does not occur frequently. Overall, the available evidence does not support the perpetuation of HP H5N1 influenza in migratory birds and suggests that the introduction of HP Asian H5N1 to the Americas by migratory birds is likely to be a rare event.

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Epac2 induces synapse remodeling and depression and its disease-associated forms alter spines

et al. 2009

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Dynamic remodeling of spiny synapses is crucial for cortical circuit development, refinement, and plasticity, while abnormal morphogenesis is associated with neuropsychiatric disorders. Here we show in cultured rat cortical neurons that activation of Epac2, a PKA-independent cAMP target and Rap guanine-nucleotide exchange factor (GEF), induces spine shrinkage, increases spine motility, removes synaptic GluR2/3-containing AMPA receptors, and depresses excitatory transmission, while its inhibition promotes spine enlargement and stabilization. Epac2 is required for dopamine D1-like receptor-dependent spine shrinkage and GluR2 removal from spines. Epac2 interaction with neuroligin promotes its membrane recruitment and enhances its GEF activity. Rare missense mutations in the EPAC2 gene, previously found in individuals with autism, affect basal and neuroligin-stimulated GEF activity, dendritic Rap signaling, synaptic protein distribution, and spine morphology. Thus, we identify a novel mechanism that promotes dynamic remodeling and depression of spiny synapses, whose mutations may contribute to some aspects of disease.

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Kelly A. Jones

Dendritic spine pathology in neuropsychiatric disorders

Epidemiology of chronic musculoskeletal pain

Influenza in Migratory Birds and Evidence of Limited Intercontinental Virus Exchange

Epac2 induces synapse remodeling and depression and its disease-associated forms alter spines

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