Disrupted-in-schizophrenia 1 (DISC1) was initially discovered through a balanced translocation (1;11)(q42.1;q14.3) that results in loss of the C terminus of the DISC1 protein, a region that is thought to play an important role in brain development. Here, we use an inducible and reversible transgenic system to demonstrate that early postnatal, but not adult induction, of a C-terminal portion of DISC1 in mice results in a cluster of schizophrenia-related phenotypes, including reduced hippocampal dendritic complexity, depressive-like traits, abnormal spatial working memory, and reduced sociability. Accordingly, we report that individuals in a discordant twin sample with a DISC1 haplotype, associating with schizophrenia as well as working memory impairments and reduced gray matter density, were more likely to show deficits in sociability than those without the haplotype. Our findings demonstrate that alterations in DISC1 function during brain development contribute to schizophrenia pathogenesis.inducible ͉ transgenic mouse ͉ depressive ͉ working memory ͉ sociability G iven the natural history (1) and neuropathology of schizophrenia (2, 3), genes predisposing to the disorder are expected to play a role in brain development (4, 5). Disruptedin-schizophrenia 1 (DISC1) is unique among the several candidate genes for schizophrenia in that its potential involvement is based on both cytogenetic (6, 7) and linkage-based evidence (8-10). Although functionally significant variants have not yet been identified, and the particular DISC1 markers and haplotypes associating with the syndrome are not consistent across studies (11-14), a developmentally regulated role of DISC1 in the pathophysiology of schizophrenia appears reasonable given that expression of DISC1 is most intense during perinatal development in rodent brain (15). DISC1 protein is known to form a functional complex with the developmentally regulated proteins . Interfering with the DISC1 complex has been shown to disrupt cell migration, neurite outgrowth, and synaptogenesis (16,(19)(20)(21).
ResultsDeriving the Inducible DISC1 C-Terminal Fragment (DISC1-cc) Transgenic Mouse. We derived transgenic mice expressing a DISC1-cc under the control of the ␣-calmodulin kinase II promoter (22), which is active only in primary neurons of the forebrain. DISC1-cc spans residues 671-852, which is the crucial portion of DISC1 for binding to 21). The DISC1-cc protein is fused to a HA-tagged mutant (G521R) estrogen receptor ligand-binding domain (LBD) (Fig. 1a). It is important to note that this mutant form of LBD is unable to bind its natural ligand (i.e., estrogen) but instead is activated specifically by tamoxifen (23). In this inducible, reversible transgenic system, the transgenic protein is sequestered by heat-shock chaperone proteins, is degraded, and therefore is nonfunctional without the inducer (tamoxifen). When tamoxifen binds the LBD, the fusion protein complex, which includes the regulated protein (i.e., DISC1-cc), undergoes a conformational switch such that the transgen...
