our data suggest: (i) C14ORF28, GNB2L1, MLLT3, DRD2 and DARPP-32 are important in the pathogenesis of schizophrenia and bipolar disorder; (ii) these two disorders share common disease-related mechanisms linked to dopamine signalling; (iii) the expression of these genes is closely correlated; and (iv) DRD2 provides the initial trigger in the pathogenesis of these disorders.
Dystonia represents a genetically and clinically heterogeneous disorder, characterized by abnormal and sustained muscle contractions and rigid postures. At least 15 different loci (DYT1-DYT15) have been identified in dystonia. Adult-onset idiopathic focal dystonia affecting specific parts of the body, such as the eye (blepharospasm), neck (cervical dystonia), and hand (writer's cramp), is mostly associated with the DYT7 locus, which was originally mapped to chromosome 18p by genomewide linkage analysis in a large family showing autosomal dominant inheritance. We have identified a family in which the mother is affected with dystonia and the son shows signs of dystonia. Using fluorescent BAC probes spanning 18p, we were able to identify a deletion in these two individuals, spanning the entire short arm of 18p. This deletion is accompanied by a centric fusion involving chromosome 14. The 18p deleted region spans 15 megabases of DNA, with a number of interesting DYT7 candidate genes, including genes involved in G-protein-coupled signaling (GNAL), cell death (CIDEA), muscle development (MYOM1 and MRLM), mitochondrial activity (NDUFV2), and neuronal function (ADYCAP1, TGIF, DAP-1, and AFG3L2).
Dopamine signalling is a critically important process in the human brain that controls mood, cognition and motor activity. In order to gain detailed insight into this signalling pathway at the molecular level, we carried out yeast two-hybrid screens with D1-like (D1, D5) and D2-like (D2, D3, D4) dopamine receptors and identified 11 dopamine receptor interacting proteins (DRIPs). Using the C-terminal domain of D1 receptor as bait, we identified AIP1 (ALG-2 interacting protein 1), a known modulator of caspase-dependent and caspase-independent cell death, including neuronal cell death, that is also part of the endosomal transport system. In a separate yeast two-hybrid screen, using the third intracellular cytoplasmic loop of D3 as bait, we again identified AIP1. The interaction of AIP1 with both D1 and D3 was confirmed in vitro and in vivo using a variety of methods, including glutathione S-transferase (GST) pull-down, blot overlay and coimmunoprecipitation from mouse brain lysates. We have also observed colocalization of D1 and D3 with AIP1 in mouse brain tissue. In addition, coexpression of AIP1 with D1 resulted in> 50% reduction in binding capacity of D1 to its antagonist. Finally, AIP1 up-regulates D1 and D3 expression and appears to be important for their stability and trafficking.
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