Elevated neuregulin-1 and ErbB4 protein in the prefrontal cortex of schizophrenic patients.

Neuregulin-1 (NRG1) and its receptor, ErbB4, have been implicated in schizophrenia at both gene and transcript levels. The present investigation compared NRG1 and ErbB4 protein levels in prefrontal cortical (PFC) cytoplasmic and nuclear fractions among normal, schizophrenic, bipolar and major depressed subjects from the Stanley Consortium. We used immunoblotting procedures to examine potential NRG1 and ErbB4 immunoreactive bands, but specifically quantified NRG1 immunoreactive signals at 42, 48 and 53 kDa and ErbB4 immunoreactive signals at 21, 55, 60 and 180 kDa. PFC cytoplasmic 53 kDa NRG1 protein levels were significantly increased (approximately 20%) in schizophrenic patients relative to each of the other subject groups. We also detected diagnostic effects on PFC cytoplasmic full-length (180 kDa) ErbB4 protein levels, and post hoc tests revealed that these quantities were significantly increased (approximately 30%) in schizophrenic patients relative to normal and to depressed subjects. In addition, we examined the levels of potential ErbB4 cleavage products at 21, 55 and 60 kDa relative to those of full-length ErbB4 in the PFC fractions. We detected trends for diagnostic effects on PFC cytoplasmic 21 kDa/180 kDa and 55 kDa/180 kDa ratios, and post hoc tests revealed that these ratios were significantly reduced in schizophrenic patients relative to normal individuals. Our investigation suggests that schizophrenia-associated NRG1 and ErbB4 mRNA elevations also occur at the protein level and may be specific to schizophrenia. We hypothesize that ErbB4 proteolytic processing may also be altered in schizophrenia, yielding altered ratios of functionally distinct forms of ErbB4.

Specific developmental reductions in subventricular zone ErbB1 and ErbB4 mRNA in the human brain.

The primate postnatal subventricular zone (SVZ) lies under the ventrolateral borders of the lateral ventricles as a discrete region of cells with gliogenic and neurogenic capacity regulated by ErbB receptors. However, the specific role of each ErbB subtype in SVZ cell development remains unclear, particularly in the human brain. The postnatal spatial and temporal expression profile of ErbB subtypes in the human brain may provide valuable insight into their distinct functions in the SVZ following birth. Hence, we examined the expression profile of ErbB1, ErbB2, ErbB3 and ErbB4 mRNA in the SVZ of human postmortem brains from neonates, infants, toddlers, school age subjects, adolescents, young adults and adults using in situ hybridization. SVZ transcript levels of ErbB1 and ErbB4 were highest in neonates and diminished with age. SVZ ErbB4 mRNA quantities significantly decreased by >85% to almost undetectable levels after the first year of life, while SVZ ErbB1 transcript levels displayed more gradual reductions, stabilizing to approximately 30-40% of neonate levels after the age of 5 years. In the neonate and infant SVZ, ErbB4 mRNA was localized to cell clusters resembling migratory neuroblast aggregates whereas ErbB1 mRNA was expressed in cells along but not within these clusters. ErbB2 mRNA appeared to be constantly expressed in the human SVZ at all postnatal ages as opposed to ErbB3 transcripts, which were not detected in the human SVZ at any age following birth. These findings suggest that ErbB1 and ErbB4 may play more salient roles than ErbB2 and ErbB3 in mediating early postnatal neurodevelopmental events. In addition, ErbB1- and ErbB4-immunoreactive cells and fibers were extensive throughout the human infant SVZ, but did not appear to overlap with PSA-NCAM-immunopositive clusters. The restriction of robust SVZ ErbB4 expression to neonate and infant age groups may indicate that SVZ-derived ErbB4-dependent postnatal neuronal development is most extensive within a narrow time frame early after birth.

Widespread expression of ErbB2, ErbB3 and ErbB4 in non-human primate brain.

Neuregulin (NRG) signaling proteins interact with ErbB receptors leading to the proliferation, differentiation and migration of neurons and glia in the developing brain. NRG-1/ErbB4 are susceptibility genes for schizophrenia, yet little is known about the neuroanatomical expression of ErbB receptors specifically in primates. We find widespread expression of ErbB2, ErbB3 and ErbB4 receptor mRNAs throughout the telencephalon of juvenile and adult monkeys with in situ hybridization, with ErbB2 and ErbB4 mRNA more abundant than ErbB3 mRNA. ErbB2 and ErbB4 mRNA are expressed at higher levels in grey matter compared to white matter, whereas ErbB3 mRNA is expressed at low levels in both grey and white matter. We also characterized ErbB protein expression with immunoblotting and immunohistochemistry. In frontal cortex, ErbB2, ErbB3 and ErbB4 antibodies immunostained neuronal soma and nuclei. The ErbB2 antibody also immunostained glia at the pial surface. Within white matter, ErbB3 and ErbB4 proteins were localized to putative interstitial white matter neurons while ErbB2 protein was found in glia. Western blotting revealed immunopositive bands at approximately 180-200 kDa for each ErbB, which is consistent with the size of full-length ErbBs. Smaller immunopositive bands were also identified for each ErbB receptor in whole brain homogenates and separate cytoplasmic and nuclear extracts suggesting nuclear ErbB-back-signaling capacity in the brain. The ubiquitous expression of ErbB receptors indicates that many cell populations throughout the brain of juvenile and adult primates have the potential to respond to NRG-1 in a variety of ways.

Decreased expression of a 40-kDa catecholamine-regulated protein in the ventral striatum of schizophrenic brain specimens from the Stanley Foundation Neuropathology Consortium.

The majority of heat shock proteins (HSP) act as molecular chaperones protecting cells from deleterious stress. These proteins are able to inhibit the aggregation of partially denatured proteins and refold them into the correct conformation. They have also been shown to be involved in the pathogenesis of many neurodegenerative and psychiatric disorders. Previous reports from our laboratory have described a 40-kDa catecholamine-regulated heat-shock-like protein (CRP40). This study investigates CRP40 expression in ventral striatal specimens obtained from the Stanley Foundation Neuropathology Consortium (SFNC). CRP40 levels were significantly reduced in schizophrenic patients relative to the control group. However, ventral striatal samples of individuals diagnosed with major depression or bipolar disorder did not show significant changes in the expression of the protein. No differences in CRP40 levels were observed due to age, sex or postmortem interval (PMI). Further analysis of the schizophrenic group revealed that unmedicated and medicated patients showed decreases in ventral striatal CRP40 levels relative to the control group. However, the largest reduction in these levels was seen in unmedicated schizophrenic patients. In addition, relative to the unmedicated individuals, the clozapine- and haloperidol-treated groups showed elevations in ventral striatal CRP40 expression, although not significant. An increase in sample size may clarify this observation. Taken together, these results suggest a functional role of CRP40 in the pathogenesis of schizophrenia.

Effects of portal free fatty acid elevation on insulin clearance and hepatic glucose flux.

We tested the hypothesis that, due to greater hepatic free fatty acid (FFA) load, portal delivery of FFAs, as in visceral obesity, induces hyperinsulinemia and increases endogenous glucose production to a greater extent than peripheral FFA delivery. For 5 h, 10 microeq.kg(-1).min(-1) portal oleate (n = 6), equidose peripheral oleate (n = 5), or saline (n = 6) were given intravenously to conscious dogs infused with a combination of portal and peripheral insulin to enable calculation of hepatic insulin clearance during a pancreatic euglycemic clamp. Peripheral FFAs were similar with both oleate treatments and were threefold greater than in controls. Portal FFAs were 1.5- to 2-fold greater with portal than with peripheral oleate. Peripheral insulin concentrations were greatest with portal oleate, intermediate with peripheral oleate (P < 0.001 vs. portal oleate or controls), and lowest in controls, consistent with corresponding reductions in plasma insulin clearance and hepatic insulin clearance. Although endogenous glucose production did not differ between the two routes of oleate delivery, total glucose output (endogenous glucose production plus glucose cycling) was greater with portal than with peripheral oleate (P < 0.001) despite the higher insulin levels. In conclusion, during euglycemic clamps in dogs, the main effect of short-term elevation in portal FFA is to generate peripheral hyperinsulinemia. This may, in the long term, contribute to the metabolic and cardiovascular risk of visceral obesity.

cDNA array reveals differential gene expression following chronic neuroleptic administration: implications of synapsin II in haloperidol treatment.

The cDNA expression array is a recently developed scientific tool that can profile the differential expression of several hundreds of genes simultaneously and is therefore advantageous in the study of antipsychotic drug action at the genetic level. Using this technology, we discovered 14 genes in the rat striatum whose expression was changed by >/= 50% following chronic haloperidol treatment. Among them was the synapsin II gene, which was found to be significantly up-regulated after the treatment. Since recent studies have implicated this gene in schizophrenia, further experiments were performed to determine whether chronic haloperidol exposure resulted in concurrent increases in the expression of striatal synapsin II protein. Immunoblotting revealed that protein levels of both the a and b isoforms of synapsin II were also increased by comparable amounts following haloperidol treatment. This study is the first to show the regulation of synapsin II expression by haloperidol at the transcript and protein level in rat striatum. A possible mechanism for the observed haloperidol-induced increase in striatal synapsin II expression, along with the implications of this up-regulation in chronic haloperidol treatment, is presented.

Cocaine treatment increases expression of a 40 kDa catecholamine-regulated protein in discrete brain regions.

Previous reports from our laboratory have described brain-specific catecholamine-regulated proteins, which bind dopamine and related catecholamines. Evidence from the molecular cloning of a 40 kDa catecholamine-regulated protein (CRP40) revealed that CRP40 is dopamine-inducible and has properties similar to those of the 70 kDa heat shock protein (HSP70) family. The present study investigates the effects of acute and chronic cocaine treatment on CRP40 expression in the striatum, nucleus accumbens, prefrontal cortex, and medulla. Acute treatment with cocaine increased CRP40 expression in the nucleus accumbens and striatum, whereas chronic treatment with cocaine increased CRP40 expression in the nucleus accumbens only. Neither of these treatments affected CRP40 levels in the prefrontal cortex or medulla. In addition, pretreatment with the spin-trapping agent alpha-phenyl-tert-butylnitrone did not attenuate cocaine-induced expression of CRP40, suggesting that the observed increases in CRP40 levels were not caused by free radicals. On the other hand, pretreatment with anisomycin, a protein synthesis inhibitor, blocked the cocaine-induced expression of CRP40. Thus, protein synthesis may be involved in the observed CRP40 level increases. Furthermore, neither acute nor chronic cocaine treatment affected levels of inducible or constitutively expressed HSP70, which indicates a specificity of cocaine's effects on CRP40. Since cocaine has been shown to increase extracellular dopamine levels, these findings suggest that increased expression of CRP40 is associated with high extracellular levels of dopamine (or its metabolites). Elevated levels of CRP40 could play a protective role for dopamine neurons in response to increased oxidative stress that has been shown to be induced by cocaine and that can lead to apoptosis and neurodegeneration.