Inflammation has emerged as a prominent feature of bipolar disorder (BD) pathophysiology, drawing attention to brain barriers known to regulate immune-brain interactions. While perturbation of the blo Show more
Inflammation has emerged as a prominent feature of bipolar disorder (BD) pathophysiology, drawing attention to brain barriers known to regulate immune-brain interactions. While perturbation of the blood-brain barrier has been reported in BD, the blood-cerebrospinal fluid (CSF) barrier formed largely by the choroid plexus (ChP) remains underexamined. To address this gap in knowledge, we used a multiplex array to measure cytokine protein abundance in postmortem ChP tissue from individuals with BD and unaffected controls, revealing elevated levels of CCL2 and SPP1, factors associated with monocyte and macrophage recruitment and activation. In contrast, expression of cytokines involved in tissue homeostasis, trophic support, and immune signaling, including OSM, IGF-1, CX3CL1, TGFB3, GDNF, LIF, BDNF, SCF, and FGFs, was reduced. Several cytokines, including CCL2 and PLGF, exhibited condition-specific divergent age trajectories. Bulk RNA sequencing of the same cohort revealed a modest set of differentially expressed genes, including transcripts associated with oxidative stress, mitochondrial function, and immune regulation that were upregulated in BD. Notably, the BD CSF biomarker NELL2 was downregulated in the ChP. Gene set enrichment analysis highlighted activation of inflammatory and cellular stress pathways, as well as reduced expression of junction-related gene programs. These findings suggest a shift in ChP function in BD characterized by increased pro-inflammatory signaling and reduced trophic and barrier-supportive activity. Together, these data identify the ChP as an active site of immune dysregulation in BD and support the broader notion of brain barrier dysfunction in mood disorder pathology. Show less
The purpose of this study was to analyze and compare cytokine and growth factor levels in modified autologous conditioned serum (mACS) and autologous serum (AS) and to evaluate their therapeutic effec Show more
The purpose of this study was to analyze and compare cytokine and growth factor levels in modified autologous conditioned serum (mACS) and autologous serum (AS) and to evaluate their therapeutic effects in a benzalkonium chloride (BAK)-induced murine dry eye model. Serum samples were obtained from twenty healthy volunteers and analyzed by ELISA. A dry eye model was established in twenty-four C57BL/6 mice by topical application of 0.2% BAK twice daily for seven days. The mice were evenly divided into three subgroups: saline-treated, 0.5% AS-treated, and 0.5% mACS-treated. The right eyes were treated, and the left eyes served as untreated controls. Eyeballs were harvested on days 7 and 14 for immunofluorescence staining. Results showed that neuroprotective factors (BDNF and fractalkine), pro-inflammatory cytokines (IL-1β, IL-6, MIF, TNF-α), and VEGF-A were significantly elevated in the mACS group, whereas PDGF-BB was significantly reduced. Furthermore, immunofluorescence analysis demonstrated a significantly greater recovery of central corneal nerve fibers in the mACS-treated group compared with the saline group at day 7 (p < 0.01). At day 14, the mACS-treated group continued to show a trend toward increased central corneal nerve regeneration, although this difference did not reach conventional statistical significance (p < 0.1). No significant differences were observed between the AS- and saline-treated groups. In conclusion, compared with AS, mACS demonstrates a cytokine profile suggestive of enhanced neuroprotective potential and may facilitate corneal nerve regeneration in the BAK-induced murine dry eye model. Show less