Neuroprotective effects of isosteviol sodium in an in vitro model of stroke

Ziel dieser Arbeit war der Nachweis eines neuroprotektiven Effektes von STVNA auf cerebEND Zellen der Maus in einem in vitro Modell des Schlaganfalls. Mit dem Verfahren zur Herstellung von STVNA konnte ein reines und im Vergleich zu Isosteviol in Wasser gut lösliches Produkt hergestellt werden, das die Anforderungen an eine Versuchssubstanz in einem in vitro Modell voll erfüllen konnte. Als in vitro Modell wurde das bereits bewährte Verfahren der OGD gewähl. CerebEND Zellen der Maus wurden für 4 h OGD ausgesetzt und anschließend für 4 h und 24 h mit 0, 1, 5, 10 und 20 mg/l STVNA behandelt. Direkt, 4 h und 24 h nach 4 h OGD wurden die jeweiligen Zellen geerntet und mittels Western Blot und qRT-PCR ausgewertet. Es wurden eine erhöhte Expression der Tight-Junction-Proteine Claudin-5 und Occludin, sowie ein stabilisierendes Expressionsverhalten der Transmembranproteine Integrin a 1 und Integrin a v nach Behandlung mit STVNA nachgewiesen. Ebenso wurde eine verminderte Expression des Glukosetransporters GLUT 1 beobachtet. Eine Volumenreduktion der cerebEND Zellen durch STVNA, während 4h OGD und gleichzeitiger Behandlung mit STVNA konnte ebenfalls festgestellt werden. Die Ergebnisse dieser Arbeit stützen die Thesen und Ergebnisse der aktuellen Literatur, dass STVNA neuroprotektive Eigenschaften hat.The endothelial cells of the BBB are acutely vital during ischemia due to hypoxia and hypoglycemia. A breakdown of the BBB's barrier function results in life-threatening complications and is a common cause of death. The aim of this work was to demonstrate a neuroprotective effect of STVNA on mouse cerebEND cells in an in vitro model of stroke. Mouse cerebEND cells were exposed to OGD for 4 h and then treated with 0, 1, 5, 10 and 20 mg/l STVNA for 4 h and 24 h. The respective cells were harvested directly, 4 h and 24 h after 4 h OGD and evaluated by Western Blot and qRT-PCR. An increased expression of the tight junction proteins Claudin-5 and Occludin as well as a stabilizing expression behavior of the transmembrane proteins integrin a1 and integrin av were detected after treatment with STVNA. A reduced expression of the glucose transporter GLUT 1 was also observed. A volume reduction of the cerebEND cells by STVNA, during 4h OGD and simultaneous treatment with STVNA could also be determined. The results of this work support the theses and results of the current literature that STVNA has neuroprotective properties

Neuroprotective Effects of Isosteviol Sodium in Murine Brain Capillary Cerebellar Endothelial Cells (cerebEND) After Hypoxia

Ischemic stroke is one of the leading causes of death worldwide. It damages neurons and other supporting cellular elements in the brain. However, the impairment is not only confined to the region of assault but the surrounding area as well. Besides, it also brings about damage to the blood-brain barrier (BBB) which in turn leads to microvascular failure and edema. Hence, this necessitates an on-going, continuous search for intervention strategies and effective treatment. Of late, the natural sweetener stevioside proved to exhibit neuroprotective effects and therapeutic benefits against cerebral ischemia-induced injury. Its injectable formulation, isosteviol sodium (STVNA) also demonstrated favorable results. Nonetheless, its effects on the BBB have not yet been investigated to date. As such, this present study was designed to assess the effects of STVNA in our in vitro stroke model of the BBB.The integrity and permeability of the BBB are governed and maintained by tight junction proteins (TJPs) such as claudin-5 and occludin. Our data show increased claudin-5 and occludin expression in oxygen and glucose (OGD)-deprived murine brain capillary cerebellar endothelial cells (cerebEND) after STVNa treatment. Likewise, the upregulation of the transmembrane protein integrin-αv was also observed. Finally, cell volume was reduced with the simultaneous administration of STVNA and OGD in cerebEND cells. In neuropathologies such as stroke, the failure of cell volume control is a major feature leading to loss of cells in the penumbra as well as adverse outcomes. Our initial findings, therefore, point to the neuroprotective effects of STVNA at the BBB in vitro, which warrant further investigation for a possible future clinical intervention