Neuroscience
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Poly(ADP-ribose) polymerase-1 (PARP-1) is a nuclear enzyme that contributes to both neuronal death and survival under stress conditions. PARP-1 is the most abundant of several PARP family members, accounting for more than 85% of nuclear PARP activity, and is present in all nucleated cells of multicellular animals. ⋯ PARP-1 activation is thereby a key mediator of neuronal death during excitotoxicity, ischemia, and oxidative stress, and PARP-1 gene deletion or pharmacological inhibition can markedly improve neuronal survival in these settings. PARP-1 activation has also been identified in Alzheimer's disease and in experimental allergic encephalitis, but the role of PARP-1 in these disorders remains to be established.
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Oligodendrocytes are crucial to the function of the mammalian brain: they increase the action potential conduction speed for a given axon diameter and thus facilitate the rapid flow of information between different brain areas. The proliferation and differentiation of developing oligodendrocytes, and their myelination of axons, are partly controlled by neurotransmitters. ⋯ Mutations in oligodendrocyte neurotransmitter receptors or their interacting proteins may cause defects in CNS function. Here we review the roles of neurotransmitter receptors in the normal function, and malfunction in pathological conditions, of oligodendrocytes.
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Patients with the genetic disease xeroderma pigmentosum (XP) lack the capacity to carry out a specific type of DNA repair process called nucleotide excision repair (NER). The NER pathway plays a critical role in the repair of DNA damage resulting from ultraviolet (UV) radiation. A subset of XP patients develops a profound neurodegenerative condition known as XP neurological disease. ⋯ In this manuscript, I consider the evidence that a particular class of oxidative DNA lesions, the 8,5'-cyclopurine-2'-deoxynucleosides, fulfills many of the criteria expected of neurodegenerative DNA lesions in XP. Specifically, these lesions are chemically stable, endogenous DNA lesions that are repaired by the NER pathway but not by any other known process, and strongly block transcription by RNA polymerase II in cells from XP patients. A similar set of criteria might be used to evaluate other candidate DNA lesions responsible for neurological diseases resulting from defects in other DNA repair mechanisms as well.
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DNA single-strand breaks (SSBs) are the commonest DNA lesions arising spontaneously in cells, and if not repaired may block transcription or may be converted into potentially lethal/clastogenic DNA double-strand breaks (DSBs). Recently, evidence has emerged that defects in the rapid repair of SSBs preferentially impact the nervous system. ⋯ Although SCAN1 is a rare neurodegenerative disorder, understanding the molecular basis of this disease will lead to better understanding of neurodegenerative processes. Here we review recent progress in our understanding of TDP1, single-strand break repair (SSBR), and neurodegenerative disease.