Yi-Yin Lin scite author profile

Antipsychotic drugs (APDs) are widely used to alleviate a number of psychic disorders and may have immunomodulatory effects. However, the previous studies of cytokine and immune regulation in APDs are quite inconsistent. The aim of this study was to examine the in vitro effects of different ADPs on cytokine production by peripheral blood mononuclear cells (PBMCs). We examined the effects of risperidone, clozapine, and haloperidol on the production of phorbol myristate acetate and ionomycin-induced interferon-γ (IFN-γ)/interleukin (IL)-4 in PBMCs by using intracellular staining. Real-time quantitative PCR and Western blot were used to further examine the expression changes of some critical transcription factors related to T-cell differentiation in antipsychotic-treated PBMCs. Our results indicated that clozapine can suppress the stimulated production of IFN-γ by 30.62%, whereas haloperidol weakly enhances the expression of IFN-γ. Differences in IL-4 production or in the number of CD4+ T cells were not observed in cells treated with different APDs. Furthermore, clozapine and risperidone inhibited the T-bet mRNA and protein expression, which are critical to Th1 differentiation. Also, clozapine can enhance the expression of Signal Transducer and Activator of Transcription 6 and GATA3, which are critical for the differentiation of Th2 cells. The results suggested that clozapine and haloperidol may induce different immunomodulatory effects on the immune system.

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Increased cellular glutathione and protection by bone marrow stromal cells account for the resistance of non-acute promylocytic leukemia acute myeloid leukemia cells to arsenic trioxidein vivo

Lee¹,

Lin

Huang

et al. 2006

Leukemia & Lymphoma

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Arsenic trioxide (ATO) is a novel agent for acute promylocytic leukemia (APL). Studies performed in vitro have demonstrated that ATO also induces cell-cycle arrest and apoptosis in multiple cancers, including non-APL acute myeloid leukemia (AML). To explore the potential use of ATO on non-APL AML, we treated the leukemic cells in vivo using a NOD/SCID animal model. Mice harboring HL-60 or NB-4 leukemia or primary AML-M2 cells were treated daily with 5 mug/g ATO intraperitoneally for a maximum of 6 weeks. Although ATO initially appeared to be effective on HL-60 cells, it failed to decrease the leukemic cells in bone marrow (BM) after the extended treatment (52.2 +/- 10.7% vs. 62.2 +/- 2.6% in the controls; P = 0.51); whereas the same treatment to NB-4 leukemic mice significantly decreased the percentage of leukemic cells in BM. ATO also failed to eradicate the primary AML cells in vivo. The reason for the treatment failure was that HL-60 cells quickly developed resistance in vivo. The drug resistance could be partly attributable to the increase of cellular glutathione as a result of compensatory response to ATO treatment because depletion of glutathione with buthionine sulfoximine reversed the drug resistance in vitro. Meanwhile, BM stromal cells also contributed to the drug resistance. Leukemic cells grown on an adherent layer of MS-5 stromal cells in the presence of ATO were more proliferative and less apoptotic and had increased expression cyclin D1, Bcl-xL and Bcl-2 and decreased expression of p21, likely protecting the leukemic cells from ATO cytotoxicity. Therefore, our study suggests that strategies to inhibit the compensatory increase of glutathione and block the interaction between leukemic cells and BM stromal cells should be employed before applying ATO to non-APL hematologic malignancies.

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Antipsychotic drugs induce cell cytoskeleton reorganization in glial and neuronal cells via Rho/Cdc42 signal pathway

Chen

Tsai

Lee

et al. 2016

Progress in Neuro-Psychopharmacology and Biological Psychiatry

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Proteomic study revealed antipsychotics-induced nuclear protein regulations in B35 cells are similar to the regulations in C6 cells and rat cortex

Lee

Tsai

et al. 2018

BMC Pharmacol Toxicol

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BackgroundBased on accumulating evidence, the regulation of protein expression by antipsychotic drugs (APDs) might be closely related to the control of psychotic symptoms when these drugs are used to treat mental disorders. The low quantity of nuclear proteins in the cell hinders their detection because signal for rare proteins are masked in most proteomic detection systems.MethodsNuclear proteins fractionated from APD-treated B35 cells were labeled with iTRAQ and detected by LC/MS/MS to investigate APD-induced alterations in nuclear protein expression. Western blot, immunofluorescent cell staining, and immunohistochemical staining were applied to validate the findings.ResultsThe expression of ADP/ATP translocase 2, heat shock cognate 71 kDa protein, histone H1.2, histone H3.3, histone H4, non-POU domain-containing octamer-binding protein, nucleolin, nucleophosmin, prelamin-A/C, plectin-1, vimentin, and 40S ribosomal protein S3a was regulated by APDs in B35 cells, according to our proteomic data. According to the results of the gene ontology analysis, all these proteins played important roles in biological processes or in molecular functions in cells. Western blot results showing APD-induced alterations in nuclear protein expression in B35 cells were consistent with the LC/MS/MS results. Heat shock cognate 71 kDa protein and vimentin expression in C6 cells were not affected by the three APDs. As shown in the immunofluorescent cell staining, all the three APDs altered protein expression to similar extents. We also examined whether the expression of these proteins was affected by APDs in the prefrontal cortex of rats administered sub-chronic and chronic APD treatments by western blotting and immunohistochemical staining.ConclusionsThe findings of the proteomic analysis of APD-treated B35 cells were recapitulated in the APD-treated rat cortex. The expression of some proteins was altered by APDs in rat prefrontal cortex in a time-dependent manner.Electronic supplementary materialThe online version of this article (10.1186/s40360-018-0199-0) contains supplementary material, which is available to authorized users.

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Yi-Yin Lin

Antipsychotic drugs suppress the AKT/NF-κB pathway and regulate the differentiation of T-cell subsets

Risperidone modulates the cytokine and chemokine release of dendritic cells and induces TNF-α-directed cell apoptosis in neutrophils

Clozapine inhibits Th1 cell differentiation and causes the suppression of IFN-γ production in peripheral blood mononuclear cells

Increased cellular glutathione and protection by bone marrow stromal cells account for the resistance of non-acute promylocytic leukemia acute myeloid leukemia cells to arsenic trioxidein vivo

Antipsychotic drugs induce cell cytoskeleton reorganization in glial and neuronal cells via Rho/Cdc42 signal pathway

Proteomic study revealed antipsychotics-induced nuclear protein regulations in B35 cells are similar to the regulations in C6 cells and rat cortex

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