Towards Effective and Safe Thrombolysis and Thromboprophylaxis

Wang, Xiaowei; Palasubramaniam, Jathushan; Gkanatsas, Yannik; Hohmann, Jan David; Westein, Erik; Kanojia, Ruchi; Alt, Karen; Huang, Dexing; Jia, Fu‐Jun; Ahrens, Ingo; Medcalf, Robert L.; Peter, Karlheinz; Hagemeyer, Christoph E.

doi:10.1161/circresaha.114.302514

Cited by 77 publications

(39 citation statements)

References 53 publications

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“…Thus, local delivery of MH from the complex can potentially expose the injured neural tissue to high concentrations of MH while avoiding the deleterious side effects from systemic exposure. For applications where most neuronal loss happens in the acute stage (within 24 hr), such as traumatic brain injury [47], spinal cord injury [64, 65], and stroke [66], initial burst release of high-dose MH from the complexes can provide neuroprotection, and subsequent slow release of MH can target chronic inflammation following neural injury. For neurodegenerative diseases such as Alzheimer’s disease and Parkinson’s disease which are closely associated with chronic neuroinflammation [67], sustained local delivery of MH can potentially inhibit the progression of these debilitating diseases while obviating the side effects from long term systemic exposure.…”

Section: Resultsmentioning

confidence: 99%

Metal ion-assisted self-assembly of complexes for controlled and sustained release of minocycline for biomedical applications

Zhang¹,

Wang²,

Nong³

et al. 2015

Biofabrication

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This study reports the development of novel drug delivery complexes self-assembled by divalent metal ion-assisted coacervation for controlled and sustained release of a hydrophilic small drug molecule minocycline (MH). MH is a multifaceted agent that has demonstrated therapeutic effects in infection, inflammation, tumor, as well as cardiovascular, renal, and neurological disorders due to its anti-microbial, anti-inflammatory, and cytoprotective properties. However, the inability to translate the high doses used in experimental animals to tolerable doses in human patients limits its clinical application. Localized delivery can potentially expose the diseased tissue to high concentrations of MH that systemic delivery cannot achieve, while minimizing the side effects from systemic exposure. The strong metal ion binding-assisted interaction enabled high drug entrapment and loading efficiency, and stable long term release for more than 71 days. Released MH demonstrated potent anti-biofilm, anti-inflammatory, and neuroprotective activities. Furthermore, MH release from the complexes is pH-sensitive as the chelation between minocycline and metal ions decreases with pH, allowing ‘smart’ drug release in response to the severity of pathology-induced tissue acidosis. This novel metal ion binding-mediated drug delivery mechanism can potentially be applied to other drugs that have high binding affinity for metal ions and may lead to the development of new delivery systems for a variety of drugs.

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Section: Resultsmentioning

confidence: 99%

Metal ion-assisted self-assembly of complexes for controlled and sustained release of minocycline for biomedical applications

Zhang¹,

Wang²,

Nong³

et al. 2015

Biofabrication

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“…Targeting the ligand binding function of integrin αIIbβ3 has been considered into the development of antithrombotic agents . These compounds may allow for effective thrombolysis and thromboprophylaxis, but they have significant side effects including thrombocytopenia and increased bleeding risks . These side effects limit the use and dose of integrin antagonists, and thus also limit their effectiveness .…”

Section: Introductionmentioning

confidence: 99%

Coenzyme Q10 Upregulates Platelet cAMP/PKA Pathway and Attenuates Integrin αIIbβ3 Signaling and Thrombus Growth

Shi

et al. 2019

Molecular Nutrition Food Res

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Scope Platelet integrin αIIbβ3 is the key mediator of atherothrombosis. Supplementation of coenzyme Q10 (CoQ10), a fat‐soluble molecule that exists in various foods, exerts protective cardiovascular effects. This study aims to investigate whether and how CoQ10 acts on αIIbβ3 signaling and thrombosis, the major cause of cardiovascular diseases. Methods and results Using a series of platelet functional assays in vitro, it is demonstrated that CoQ10 reduces human platelet aggregation, granule secretion, platelet spreading, and clot retraction. It is further demonstrated that CoQ10 inhibits platelet integrin αIIbβ3 outside‐in signaling. These inhibitory effects are mainly mediated by upregulating cAMP/PKA pathway, where CoQ10 stimulates the A2A adenosine receptor and decreases phosphodiesterase 3A phosphorylation. Moreover, CoQ10 attenuates murine thrombus growth and vessel occlusion in a ferric chloride (FeCl3)‐induced thrombosis model in vivo. Importantly, the randomized, double‐blind, placebo‐controlled clinical trial in dyslipidemic patients demonstrates that 24 weeks of CoQ10 supplementation increases platelet CoQ10 concentrations, enhances the cAMP/PKA pathway, and attenuates αIIbβ3 outside‐in signaling, leading to decreased platelet aggregation and granule release. Conclusion Through upregulating the platelet cAMP/PKA pathway, and attenuating αIIbβ3 signaling and thrombus growth, CoQ10 supplementation may play an important protective role in patients with risks of cardiovascular diseases.

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“…60) PI3K/Akt signaling also has an important role in cerebral endothelial cells (ECs) protection and regulation of angiogenesis molecules to provide neuroprotective effects in ischemic stroke. 61,62) Urokinase-type plasminogen activator (uPA) and uPAR-mediated signaling was reported to have a role in fibrinolysis for acute ischemic stroke, as thrombolysis is the only treatment option clinically with a very narrow therapeutic window. 63) Fibrosis is concomitant with repair processes following ischemic stroke, in which pericytes are considered as an origin of fibrosis-forming cells.…”

Section: Discussionmentioning

confidence: 99%

Repurposing of Approved Cardiovascular Drugs against Ischemic Cerebrovascular Disease by Disease–Disease Associated Network-Assisted Prediction

Zhao

Luo

et al. 2019

CHEMICAL & PHARMACEUTICAL BULLETIN

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Stroke is one of the leading causes of death and disability globally, while intravenous thrombolysis with recombinant tissue plasminogen activator remains the only Food and Drug Administration (FDA)-approved therapy for ischemic stroke. The attempts to develop new treatments for acute ischemic stroke meet costly and spectacularly disappointing results, which requires both long time and high costs, whereas repurposing of safe existing drugs to new indications provides a cost-effective and not time-consuming alternative. Vascular protection is a promising strategy for improving stroke outcome, as vascular function is critical to both cardiovascular diseases (CVD) and ischemic cerebrovascular disease (ICD). Vascular function related biological processes and pathways maybe the critical associations between CVD and ICD. In this study, a multi-database, in silico target identification, gene function enrichment, and network pharmacology analysis integration approach was proposed and applied to investigate the FDA-approved CVD drugs repurposing for ICD. A list of 119 candidate drugs can be obtained for further investigation of their potential in ICD treatment. As a pleiotropic drug with multi-target, carvedilol was set an example to investigate its promising potential for ICD therapy. Our results indicated that the mode of action of carvedilol for ICD treatment may tightly associated with vascular function regulation and the mechanism is multi-target and multi-signaling pathway related. The disease-disease association network-assisted prediction needs further investigations. In summary, the proposed methods herein may provide a promising alternative to inferring novel disease indications for known drugs.

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Towards Effective and Safe Thrombolysis and Thromboprophylaxis

Cited by 77 publications

References 53 publications

Metal ion-assisted self-assembly of complexes for controlled and sustained release of minocycline for biomedical applications

Metal ion-assisted self-assembly of complexes for controlled and sustained release of minocycline for biomedical applications

Coenzyme Q10 Upregulates Platelet cAMP/PKA Pathway and Attenuates Integrin αIIbβ3 Signaling and Thrombus Growth

Repurposing of Approved Cardiovascular Drugs against Ischemic Cerebrovascular Disease by Disease–Disease Associated Network-Assisted Prediction

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