Thrombolytic tPA-induced hemorrhagic transformation of ischemic stroke is mediated by PKCβ phosphorylation of occludin.
Andreia GoncalvesEnming J SuArivalagan MuthusamyManuel ZeitelhoferDaniel TorrenteIngrid NilssonJil ProtzmannLinda FredrikssonUlf ErikssonDavid A AntonettiDaniel A LawrencePublished in: Blood (2022)
The current standard of care for moderate to severe ischemic stroke is thrombolytic therapy with tissue plasminogen activator (tPA). Treatment with tPA can significantly improve neurologic outcomes; however, thrombolytic therapy is associated with an increased risk of intracerebral hemorrhage (ICH). The risk of hemorrhage significantly limits the use of thrombolytic therapy, and identifying pathways induced by tPA that increase this risk could provide new therapeutic options to extend thrombolytic therapy to a wider patient population. Here, we investigate the role of protein kinase Cβ (PKCβ) phosphorylation of the tight junction protein occludin during ischemic stroke and its role in cerebrovascular permeability. We show that activation of this pathway by tPA is associated with an increased risk of ICH. Middle cerebral artery occlusion (MCAO) increased phosphorylation of occludin serine 490 (S490) in the ischemic penumbra in a tPA-dependent manner, as tPA-/- mice were significantly protected from MCAO-induced occludin phosphorylation. Intraventricular injection of tPA in the absence of ischemia was sufficient to induce occludin phosphorylation and vascular permeability in a PKCβ-dependent manner. Blocking occludin phosphorylation, either by targeted expression of a non-phosphorylatable form of occludin (S490A) or by pharmacologic inhibition of PKCβ, reduced MCAO-induced permeability and improved functional outcome. Furthermore, inhibiting PKCβ after MCAO prevented ICH associated with delayed thrombolysis. These results show that PKCβ phosphorylation of occludin is a downstream mediator of tPA-induced cerebrovascular permeability and suggest that PKCβ inhibitors could improve stroke outcome and prevent ICH associated with delayed thrombolysis, potentially extending the window for thrombolytic therapy in stroke.
Keyphrases
- protein kinase
- pulmonary embolism
- acute ischemic stroke
- high glucose
- atrial fibrillation
- endothelial cells
- diabetic rats
- middle cerebral artery
- healthcare
- drug induced
- palliative care
- brain injury
- bone marrow
- early onset
- adipose tissue
- mesenchymal stem cells
- case report
- drug delivery
- replacement therapy
- skeletal muscle
- amino acid
- cerebral ischemia
- cell therapy
- smoking cessation
- quality improvement
- high fat diet induced