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Novel Insights into the Molecular Mechanisms Involved in the Neuroprotective Effects of C-Phycocyanin against Brain Ischemia in Rats

Javier Marín‐Prida, José Luiz Liberato, Alexey Llopiz, Karina Stringhetta-Padovani, Nancy Pavón‐Fuentes, Andréia Machado Leopoldino, Osmany Guirola, Ignacio Hernández‐González, Mariela León Pérez, Antoni Camins, Wagner Ferreira dos Santos, Sérgio Akira Uyemura, Gilberto L. Pardo‐Andreu, Giselle Pentón‐Rol

2022Current Pharmaceutical Design18 citationsDOI

Abstract

BACKGROUND: Ischemic stroke produces a large health impact worldwide, with scarce therapeutic options. OBJECTIVE: This study aimed to reveal the role of NADPH oxidase and neuroinflammatory genes in the cerebral anti-ischemic effects of C-Phycocyanin (C-PC), the chief biliprotein of Spirulina platensis. METHODS: Rats with either focal cerebral ischemia/reperfusion (I/R) or acute brain hypoperfusion, received C-PC at different doses, or a vehicle, for up to 6 h post-stroke. Neurological, behavioral and histochemical parameters were assessed in I/R rats at 24 h. Cerebral gene expression and hippocampal neuron viability were evaluated in hypoperfused rats at acute (24 h) or chronic phases (30 days), respectively. A molecular docking analysis of NOX2 and C-PC-derived Phycocyanobilin (PCB) was also performed. RESULTS: C-PC, obtained with a purity of 4.342, significantly reduced the infarct volume and neurological deficit in a dose-dependent manner, and improved the exploratory activity of I/R rats. This biliprotein inhibited NOX2 expression, a crucial NADPH oxidase isoform in the brain, and the superoxide increase produced by the ischemic event. Moreover, C-PC-derived PCB showed a high binding affinity in silico with NOX2. C-PC downregulated the expression of pro-inflammatory genes (IFN-γ, IL-6, IL-17A, CD74, CCL12) and upregulated immune suppressive genes (Foxp3, IL-4, TGF-β) in hypoperfused brain areas. This compound also decreased chronic neuronal death in the hippocampus of hypoperfused rats. CONCLUSION: These results suggest that the inhibition of cerebral NADPH oxidase and the improvement of neuroinflammation are key mechanisms mediating the neuroprotective actions of C-PC against brain ischemia.

Topics & Concepts

NeuroprotectionNADPH oxidaseNeuroinflammationPharmacologyMedicineIschemiaBrain ischemiaHippocampal formationChemistryOxidative stressInternal medicineInflammationBarrier Structure and Function StudiesAlgal biology and biofuel productionNeuroinflammation and Neurodegeneration Mechanisms