Survivin and YM155: How faithful is the liaison?

Background and Purpose: Restoration of cerebrovascular reserve capacity (CVRC) depends on the recruitment and positive outward remodeling of preexistent collaterals (arteriogenesis). With this study, we provide functional evidence that granulocyte colony-stimulating factor (G-CSF) augments therapeutic arteriogenesis in two animal models of cerebral hypoperfusion. We identified an effective dosing regimen that improved CVRC and stimulated collateral growth, thereby improving the outcome after experimentally induced stroke. Methods: We used two established animal models of (a) cerebral hypoperfusion (mouse, common carotid artery ligation) and (b) cerebral arteriogenesis (rat, 3-vessel occlusion). Following therapeutic dose determination, both models received either G-CSF, 40 µg/kg every other day, or vehicle for 1 week. Collateral vessel diameters were measured following latex angiography. Cerebrovascular reserve capacities were assessed after acetazolamide stimulation. Mice with left common carotid artery occlusion (CCAO) were additionally subjected to middle cerebral artery occlusion, and stroke volumes were assessed after triphenyltetrazolium chloride staining. Given the vital role of monocytes in arteriogenesis, we assessed (a) the influence of G-CSF on monocyte migration in vitro and (b) monocyte counts in the adventitial tissues of the growing collaterals in vivo. Results: CVRC was impaired in both animal models 1 week after induction of hypoperfusion. While G-CSF, 40 µg/kg every other day, significantly augmented cerebral arteriogenesis in the rat model, 50 or 150 µg/kg every day did not show any noticeable therapeutic impact. G-CSF restored CVRC in mice (5 ± 2 to 12 ± 6%) and rats (3 ± 4 to 19 ± 12%). Vessel diameters changed accordingly: in rats, the diameters of posterior cerebral arteries (ipsilateral: 209 ± 7–271 ± 57 µm; contralateral: 208 ± 11–252 ± 28 µm) and in mice the diameter of anterior cerebral arteries (185 ± 15–222 ± 12 µm) significantly increased in the G-CSF groups compared to controls. Stroke volume in mice (10 ± 2%) was diminished following CCAO (7 ± 4%) and G-CSF treatment (4 ± 2%). G-CSF significantly increased monocyte migration in vitro and perivascular monocyte numbers in vivo. Conclusion: G-CSF augments cerebral collateral artery growth, increases CVRC and protects from experimentally induced ischemic stroke. When comparing three different dosing regimens, a relatively low dosage of G-CSF was most effective, indicating that the common side effects of this cytokine might be significantly reduced or possibly even avoided in this indication.

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Acute physical exercise and long‐term individual shear rate therapy increase telomerase activity in human peripheral blood mononuclear cells

Zietzer

Buschmann

Janke

et al. 2016

Acta Physiologica

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IGF-1 increases macrophage motility via PKC/p38-dependent αvβ3-integrin inside-out signaling

Furundzija¹,

Fritzsche²,

Kaufmann³

et al. 2010

Biochemical and Biophysical Research Communications

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Insulin facilitates monocyte migration: A possible link to tissue inflammation in insulin-resistance

Kappert

Meýborg

Clemenz

et al. 2008

Biochemical and Biophysical Research Communications

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Acetylsalicylic Acid, but Not Clopidogrel, Inhibits Therapeutically Induced Cerebral Arteriogenesis in the Hypoperfused Rat Brain

Duelsner

Gatzke

Gläser

et al. 2011

J Cereb Blood Flow Metab

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This study investigated the effects of acetylsalicylic acid (ASA) and clopidogrel, standardly used in the secondary prevention of vascular occlusions, on cerebral arteriogenesis in vivo and in vitro. Cerebral hypoperfusion was induced by three-vessel occlusion (3-VO) in rats, which subsequently received vehicle, ASA (6.34 mg/kg), or clopidogrel (10 mg/kg). Granulocyte colony-stimulating factor (G-CSF), which enhanced monocyte migration in an additional cell culture model, augmented cerebrovascular arteriogenesis in subgroups (40 lg/kg). Cerebrovascular reactivity and vessel diameters were assessed at 7 and 21 days. Cerebrovascular reserve capacity was completely abolished after 3-VO and remained severely compromised after 7 (À14 ± 14%) and 21 (À5 ± 11%) days in the ASA groups in comparison with controls (4 ± 5% and 10 ± 10%) and clopidogrel (4 ± 13% and 10 ± 8%). It was still significantly decreased when ASA was combined with G-CSF (1 ± 4%) compared with G-CSF alone (20 ± 8%). Posterior cerebral artery diameters confirmed these data. Monocyte migration into the vessel wall, improved by G-CSF, was significantly reduced by ASA. Acetylsalicylic acid, but not clopidogrel, inhibits therapeutically augmented cerebral arteriogenesis.

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Proprotein convertase furin enhances survival and migration of vascular smooth muscle cells via processing of pro-nerve growth factor

Lorenz

Meýborg

Ghosh

et al. 2012

Journal of Biochemistry

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Maturation of nerve growth factor (NGF) in neuronal cells requires endoproteolytic processing of the precursor protein proNGF to β-NGF by the proprotein convertase furin. Pro- and β-NGF elicit opposite biological functions by differential neurotrophin-receptor binding, leading to apoptosis via sortilin or survival via neurotrophic tyrosine kinase receptor type-1 (TrkA), respectively. The present study was done to investigate the impact of furin-dependent proNGF processing on vascular smooth muscle cell (VSMC) function. We found that β-NGF mRNA and protein expression was upregulated in platelet-derived growth factor-BB/transforming growth factor-β1-stimulated, proliferating rat aortic VSMCs. Although β-NGF itself did not affect VSMC proliferation, it promoted VSMC motility in an autocrine fashion via TrkA/Akt-dependent integrin inside-out signalling. The β-NGF-induced migration of VSMCs required proNGF processing by furin, which was co-regulated with NGF. Furin-inhibition increased proNGF and reduced β-NGF secretion, leading to apoptosis rather than migration. In line with our in vitro demonstration, we found co- and upregulation of NGF, its convertase furin and its high-affinity receptor TrkA in the neointima of balloon-injured rodent arteries. These results indicate that furin determines the balance between proNGF and β-NGF in proliferating VSMCs, thus impacting on VSMC survival and migration and is also important in neointima formation.

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Heike Meýborg

Furin-Like Proprotein Convertases Are Central Regulators of the Membrane Type Matrix Metalloproteinase–Pro-Matrix Metalloproteinase-2 Proteolytic Cascade in Atherosclerosis

PCSK9 regulates the chemokine receptor CCR2 on monocytes

Granulocyte Colony-Stimulating Factor Improves Cerebrovascular Reserve Capacity by Enhancing Collateral Growth in the Circle of Willis

Acute physical exercise and long‐term individual shear rate therapy increase telomerase activity in human peripheral blood mononuclear cells

IGF-1 increases macrophage motility via PKC/p38-dependent αvβ3-integrin inside-out signaling

Insulin facilitates monocyte migration: A possible link to tissue inflammation in insulin-resistance

Acetylsalicylic Acid, but Not Clopidogrel, Inhibits Therapeutically Induced Cerebral Arteriogenesis in the Hypoperfused Rat Brain

Proprotein convertase furin enhances survival and migration of vascular smooth muscle cells via processing of pro-nerve growth factor

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