Abstract
Investigation of peripheral gene expression patterns of transcripts within the NRG–ErbB signaling pathway, other than neuregulin-1 (NRG1), among patients with schizophrenia and more specifically treatment-resistant schizophrenia (TRS) is limited. The present study built on our previous work demonstrating elevated levels of NRG1 EGFα, EGFβ, and type I(Ig2) containing transcripts in TRS by investigating 11 NRG–ErbB signaling pathway mRNA transcripts (NRG2, ErbB1, ErbB2, ErbB3, ErbB4, PIK3CD, PIK3R3, AKT1, mTOR, P70S6K, eIF4EBP1) in whole blood of TRS patients (N = 71) and healthy controls (N = 57). We also examined the effect of clozapine exposure on transcript levels using cultured peripheral blood mononuclear cells (PBMCs) from 15 healthy individuals. Five transcripts (ErbB3, PIK3CD, AKT1, P70S6K, eIF4EBP1) were significantly elevated in TRS patients compared to healthy controls but only expression of P70S6K (Pcorrected = 0.018), a protein kinase linked to protein synthesis, cell growth, and cell proliferation, survived correction for multiple testing using the Benjamini–Hochberg method. Investigation of clinical factors revealed that ErbB2, PIK3CD, PIK3R3, AKT1, mTOR, and P70S6K expression were negatively correlated with duration of illness. However, no transcript was associated with chlorpromazine equivalent dose or clozapine plasma levels, the latter supported by our in vitro PBMC clozapine exposure experiment. Taken together with previously published NRG1 results, our findings suggest an overall upregulation of transcripts within the NRG–ErbB signaling pathway among individuals with schizophrenia some of which attenuate over duration of illness. Follow-up studies are needed to determine if the observed peripheral upregulation of transcripts within the NRG–ErbB signaling pathway are specific to TRS or are a general blood-based marker of schizophrenia.
Highlights
Intracellular signaling initiated by neuregulins (NRGs) and their cognate receptors (ErbBs) are vital for the assembly of neuronal circuitry [1, 2], including myelination of axonal processes [3, 4], neurotransmission [5], and synaptic plasticity [6,7,8]
Analysis on the remaining nine transcripts showed significantly elevated levels of five transcripts: ErbB3 (P = 0.046), PIK3CD (Praw = 0.035), AKT1 (Praw = 0.018), P70S6K (Praw = 0.002), and eIF4EBP1 (Praw = 0.013) in Treatment-resistant schizophrenia (TRS) patients compared to healthy controls after adjustment for covariates
The lack of relationship between mRNA levels and clozapine levels were further corroborated by our in vitro analysis that showed no difference in mRNA levels of detectable transcripts (n = 9) in clozapine exposed compared to unexposed peripheral blood mononuclear cells (PBMCs), except mTOR mRNA which showed decreased expression levels in clozapine exposed cells at both 24 h (P = 0.001) and 7-day (P = 0.05) time points (Figures S6 and S7 in Supplementary Material)
Summary
Intracellular signaling initiated by neuregulins (NRGs) and their cognate receptors (ErbBs) are vital for the assembly of neuronal circuitry [1, 2], including myelination of axonal processes [3, 4], neurotransmission [5], and synaptic plasticity [6,7,8]. Several human postmortem brain studies have shown dysregulation of gene expression of NRG1, ErbB4 or down-stream targets among individuals with schizophrenia [12,13,14,15,16,17]. Evidence of dysregulated gene expression of NRG1 [18,19,20], ErbB1/ErbB4 [21], and PI3K/AKT [22, 23] in peripheral tissues [i.e., whole blood, peripheral blood mononuclear cells (PBMCs), monocytes] in schizophrenia has been shown in people with chronic schizophrenia. Peripheral examination of gene expression within this pathway among individuals with TRS has yet to be completed. The impact of medication, lifestyle (e.g., smoking, alcohol use), and/or symptom severity on NRG1-related mRNA expression is largely unknown
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