HDAC4 histone deacetylase is found to associate with huntingtin in a polyQ-length dependent manner. Reduction of HDAC4 levels in mouse models of Huntington's disease (HD) delays cytoplasmic aggregation in the brain and improves the molecular pathology of HD, providing a potential new therapeutic target.
SummaryRevision rate and complications were reviewed in 297 patients of all ages subjected to ventriculoperitoneal shunting and adequately followed. Both operative mortality and deaths due to complications of this type of shunt were much lower than after ventriculocaval shunts. Although 44% required revision a third of the cases had a period of three years without revision; two-thirds of these went for three years after the initial operation without need for operation This shunt should be considered both in children and in adults because it is no more likely to block than ventriculoatrial, is easier to revise, and the other complications are fewer and much less serious.
Multiple sclerosis (MS) is a demyelinating autoimmune disease that attacks the brain, with year-on-year loss of brain volume, starting late teens and becoming manifest late twenties. There is no cure, and current therapies are immunosuppressive only. LIF is a vital stem cell growth factor active throughout life—and essential for health of the central nervous system (CNS), being tolerogenic, myelinogenic, and neuroprotective. Nano-formulation of LIF (LIFNano) using FDA-approved PLGA captures LIF's compound therapeutic properties, increasing potency 1,000-fold when targeted to CD4 (LIFNano-CD4). Moreover, circulating CD4+ lymphocytes are themselves regulated by LIF to express the Treg phenotype, known to release T cell-derived LIF upon engagement with cognate antigen, perpetuating antigen-specific self-tolerance. With the longer-term aim of treating inflammatory lesions of MS, we asked, does LIFNano-CD4 cross the blood–brain barrier (BBB)? We measure pK and pD using novel methodologies, demonstrate crossing of the BBB, show LIF-cargo-specific anti-inflammatory efficacy in the frontal cortex of the brain, and show safety of intravenous delivery of LIFNano-CD4 at doses known to provide efficacious concentrations of LIF cargo behind the BBB.
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