Probes for INS

Prosaposin (PSAP) and progranulin (PGRN) are two lysosomal proteins that interact and modulate the metabolism of lipids, particularly sphingolipids. Alterations in sphingolipid metabolism have been found in schizophrenia. Genetic associations of PSAP and PGRN with schizophrenia have been reported. To further clarify the role of PSAP and PGRN in schizophrenia, we examined PSAP and PGRN levels in postmortem cingulate cortex tissue from healthy controls along with patients who had suffered from schizophrenia, bipolar disorder, or major depressive disorder. We found that PSAP and PGRN levels are reduced specifically in schizophrenia patients. To understand the role of PSAP in the cingulate cortex, we used an AAV strategy to knock down PSAP in neurons located in this region. Neuronal PSAP knockdown led to the downregulation of neuronal PGRN levels and behavioral abnormalities. Cingulate-PSAP-deficient mice exhibited increased anxiety-like behavior and impaired prepulse inhibition, as well as intact locomotion, working memory, and a depression-like state. The behavioral changes were accompanied by increased early growth response protein 1 (EGR-1) and activity-dependent cytoskeleton-associated protein (ARC) levels in the sensorimotor cortex and hippocampus, regions implicated in circuitry dysfunction in schizophrenia. In conclusion, PSAP and PGRN downregulation in the cingulate cortex is associated with schizophrenia pathophysiology.

Background: The Psychiatric Ratings using Intermediate Stratified Markers (PRISM) project focuses on understanding the biological background behind social deficits, specifically social withdrawal irrespective of diagnosis. Reduced connectional integrity in fiber tracts such as Forceps minor has been indicated in low social individuals as a part of the PRISM 1 project. These fiber tracts are also involved in the Default Mode Network (DMN) and the Social network and they share a common region, the Orbitofrontal Cortex (OFC).This study aims to back-translate the clinical data to preclinical studies and associate social dysfunction in rodents with DMN and particularly OFC. Parvalbumin interneurons are targeted based on their fundamental role in maintaining Excitatory Inhibitory (E/I) balance in brain circuits. Numerous studies indicate behavioral impairment in rodents by increasing excitability of PV+ interneurons. Methods: As an initial step, we characterized the population of projection neurons within OFCs by combining Cholera Toxin subunit B (CTB) as a retrograde tracer and In situ hybridization (ISH) technique (RNAscope). We identified the expression of mRNAs marking glutamatergic (vesicular glutamate transporter [VGLUT]) and GABAergic (vesicular GABA transporter [VGAT]) by using Slc17a7 and Slc32a1 probes. CTB was injected unilaterally in the left OFC (AP=2.68, ML=-0.8, DV=2.2). after 10 days mice were perfused and RNAscope assay was performed using RNAscope™ Multiplex Fluorescent kit (ACDBio™).For inducing hypoactivation of OFC, we introduced an excitatory DREADD (designer receptors exclusively activated by designer drugs) to PV+ interneurons by using a PV-Cre mouse line. Mice were injected either AAV-hSyn-DIO-hM3D(Gq)-mCherry virus (n=12) or AAV-hSyn-DIO-mCherry (n=12) as control virus. As a novel behavioral tool, Radiofrequency identification (RFID)-assisted SocialScan combined with video tracking has been used, which provides a long-term observation of social behaviors. Monitoring the behavior in groups of four was performed for 7 days in total. After two pre-application days, Clozapine-N-oxide (CNO) was injected three times on consecutive days intraperitoneally (5mg/kg) as an activator of hM3D. application days were followed by two post-application days. Mice were perfused and RNAscope was performed to visualize c-fos mRNA expression as neuronal activity marker, and PV expression to validate our virus and mouse line efficacy. Results: ISH results indicated VGLUT1 has the highest expression within projection neurons (81%). 6% are VGAT+ and only 3% are both VGLUT1/VGAT positive neurons. Despite demonstrating the GABAergic projection neurons as a minority, their crucial role as local interneurons to moderate the excitatory neurons is indisputable.In in vivo study, CNO administration induced social dysregulation in DREAAD mice, demonstrated by a reduction in different social parameters (approach, fight, etc.) in terms of duration. During post-application days, DREAAD mice showed significantly higher social interaction in all definedparameters (Social Approach: p=0.0009, unpaired T-test) and locomotion as a non-social parameter (p= 0.0207).Results from ISH support our hypothesis that DREADD activation of PV+ interneurons is followed by high expression of neuronal activity markers in these targeted interneurons. Conclusion: This study indicates that manipulation of PV+ interneurons using artificially engineered activating protein receptors, generates in effect activation of these interneurons, and this manipulation particularly in OFC could cause social dysfunction in mice.