Adv Exp Med Biol
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Fragile X syndrome (FXS), a severe neurodevelopmental anomaly, and one of the earliest disorders linked to an unstable ('dynamic') mutation, is caused by the large (>200) CGG repeat expansions in the noncoding portion of the FMR1 (Fragile X Mental Retardation-1) gene. These expansions, termed full mutations, normally silence this gene's promoter through methylation, leading to a gross deficit of the Fragile X Mental Retardation Protein (FMRP) that is essential for normal brain development. Rare individuals with the expansion but with an unmethylated promoter (and thus, FMRP production), present a much less severe form of FXS. ⋯ Special emphasis has been placed on the possibility that the modest elevation of 'toxic' FMR1 mRNA in the carriers of grey zone alleles may present an additional risk for some neurodegenerative diseases, such as those associated with parkinsonism, by synergizing with either other susceptibility genes or environmental poisons. The present status ofthe treatment of fragile X-related disorders, especially FXS, is presented in the last section of this chapter. Pharmacological interventions in this syndrome have recently extended beyond stimulants and antipsychotic medications, and the latest trials involving a group of GluR5 antagonists aim to ascertain if these substances have the potential to reverse some of the neurobiological abnormalities of FXS.
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Tourette syndrome (TS) is a neurodevelopmental disorder consisting of multiple motor and one or more vocal/phonic tics. TS is increasingly recognized as a common neuropsychiatric disorder usually diagnosed in early childhood and comorbid neuropsychiatric disorders occur in approximately 90% of patients, with attention deficit hyperactivity disorder (ADHD) and obsessive-compulsive disorder (OCD) being the most common ones. Moreover, a high prevalence of depression and personality disorders has been reported. ⋯ The current diagnostic systems have dictated that TS is a unitary condition. However, recent studies have demonstrated that there may be more than one TS phenotype. In conclusion, it appears that TS probably should no longer be considered merely a motor disorder and, most importantly, that TS is no longer a unitary condition, as it was previously thought.
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Glioblasotmas are the most common primary central nervous system tumor and typically have a dismal prognosis. Immunotherapy has been a promising experimental treatment. Understanding brain tumor immunobiology is critical to designing glioblasotma immunotherapies. ⋯ The antigenic underpinnings of brain tumor immunotherapy including glioma-associated and glioma-specific antigens are discussed. Finally, the molecular and cellular facets of glioma-mediated immunosuppression are outlined. The role of multiple cell types (glioma cells, glioma-infiltrating monocytes, regulatory T cells and myeloid derived suppressor cells) in mediating local and systemic immunosuppression in glioma patients is evaluated.