Takeshi Nakahashi scite author profile

SummaryBrain-derived neurotrophic factor (BDNF), a member of the neurotrophin family, plays critical roles in the survival, growth, and maintenance of brain and peripheral neurons. We report the presence of BDNF protein in human platelets and its release upon agonist stimulation. The BDNF content of washed platelets varied widely, from 3.5 to 67 ng/ 4 X 108 platelets, averaging 25.2 ± 21.2 ng/4 X 108 platelets (mean ± SD). The BDNF concentration in platelet-poor plasma was low (1.7 ± 1.7 ng/ml, n = 11). Thrombin, collagen, the Ca++ ionophore A23187, and shear stress each induced a rapid release of BDNF from platelets. Up to only half of platelet BDNF was secreted upon agonist stimulation, suggesting that platelets may have a non-releasable pool of BDNF, or that the released BDNF binds to a recognition site on the platelet surface and is internalized, as occurs with serotonin. However, the cognate BDNF receptor, TrkB, was not detected in platelets. Nevertheless, the ability of BDNF to bind washed platelets was shown by FACS analysis confocal microscopy and by the binding and apparent internalization of [125I]-BDNF by platelets. A very high affinity site (Kd = 130 X 10−15 M, ∼80 sites/platelet) and a moderately high affinity site (Kd = 20 nM, ∼3750 sites/platelet) were identified. The BDNF content in two mega-karyocytic cell lines, DAMI and Meg-01, was only 0.1% of the content measured in platelets. No BDNF mRNA was detected by Northern blotting in these cell lines or in platelets. The pituitary gland was also ruled out as a source for platelet BDNF, since the BDNF content of rat platelets did not decrease 2 weeks after hypophysectomy. Thus, platelet BDNF is not acquired from the megakaryocyte or pituitary gland, but is probably acquired from other sources via the blood circulation. Platelets appear to bind, store and release BDNF upon activation at the site of traumatic injury to facilitate the repair of peripheral nerves or other tissues that contain TrkB.

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Vascular endothelial cells synthesize and secrete brain‐derived neurotrophic factor

Nakahashi

et al. 2000

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Brain-derived neurotrophic factor (BDNF) is an abundant neurotrophin in brain and peripheral nerves, where it affects neural development, survival and repair after injury. BDNF has been detected in rat and human blood, but the source of circulating BDNF is not established. BDNF messenger and peptide were detected in cultured cells and in the culture medium of human umbilical vein endothelial cells. The expression of BDNF was up-regulated by elevation of intracellular cAMP and down-regulated by Ca 2+ ionophore, bovine brain extract and laminar fluid shear stress. These results suggest that vascular endothelial cells may contribute to circulating BDNF.z 2000 Federation of European Biochemical Societies.

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Nitric Oxide Induces Upregulation of Fas and Apoptosis in Vascular Smooth Muscle

et al. 1996

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Interleukin-1 induced a time-dependent release of high levels of nitric oxide from rat vascular smooth muscle cells up to 96 hours. A time-dependent release of lactate dehydrogenase was also induced by Interleukin-1 from 72 to 96 hours after its stimulation. In situ nick end-labeling assay revealed that incubation for 48 hours with interleukin-1 induced a positive staining of fragmented nuclei. However, NG-monomethyl-L-arginine, an inhibitor of nitric oxide synthase, inhibited both lactate dehydrogenase release and DNA fragmentation induced by interleukin-1. Furthermore, sodium nitroprusside, a nitric oxide donor, also induced lactate dehydrogenase release and DNA fragmentation. Fluorescent staining of DNA revealed patches of irregularly dispersed, brightly staining, and condensed chromatin in rat vascular smooth muscle cells treated with sodium nitroprusside. Flow cytometric analysis with monoclonal antibody against human Fas revealed that expression of Fas was upregulated by sodium nitroprusside in human vascular smooth muscle cells. Methylene blue, an inhibitor of soluble guanylate cyclase, did not affect sodium nitroprusside-induced upregulation of Fas. Furthermore, 8-bromo-guanosine 3':5'-cyclic monophosphate, an analogue of cGMP, did not upregulate Fas expression. These findings indicate that nitric oxide released from vascular smooth muscle cells may induce apoptosis in vascular smooth muscle cells themselves and also induced upregulation of Fas via a cGMP-independent mechanism. Thus, nitric oxide could trigger the remodeling of atherosclerotic plaques.

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Flow Loading Induces Macrophage Antioxidative Gene Expression in Experimental Aneurysms

Nakahashi

Hoshina

Tsao

et al. 2002

ATVB

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Objective-Reactive oxygen species may act as proinflammatory mediators in abdominal aortic aneurysm (AAA) disease.Flow loading increases antioxidative enzyme expression and limits reactive oxygen species production in vascular smooth muscle cells in vitro, limits experimental AAA enlargement in rodent models, and is indirectly associated with reduced clinical AAA risk. We attempted to determine the mechanism or mechanisms by which flow loading limits AAA enlargement. Methods and Results-Rodent AAAs were flow loaded via femoral arteriovenous fistula creation. Aortic wall shear stress and relative wall strain were significantly higher in flow-loaded rodents. Flow loading reduced AAA diameter by 26% despite evidence of flow-mediated aortic enlargement proximal to the aneurysmal segment. Messenger RNA from AAA tissue was harvested for cDNA labeling and hybridization to a 384-clone DNA microarray. Twenty-nine genes were differentially expressed (relative intensity/relative intensity of control ratio Ͼ1.5 and Ͻ0.67) in flow-loaded compared with normal flow AAA tissue, including heme oxygenase 1 (HO-1). Increased HO-1 expression was confirmed via reverse transcriptase-polymerase chain reaction. Immunohistochemistry localized HO-1 expression to infiltrative macrophages. ␣-Tocopherol was found to be as effective as flow loading in limiting AAA enlargement. Flow loading and ␣-tocopherol therapy reduced AAA reactive oxygen species production. Key Words: abdominal aortic aneurysm Ⅲ alpha-tocopherol Ⅲ reactive oxygen species Ⅲ heme oxygenase 1 Ⅲ shear stress A bdominal aortic aneurysm (AAA) is a common and highly lethal disease. 1 Recognized clinical AAA risk factors include advanced age, male sex, cigarette smoking, and smoking-related chronic obstructive pulmonary disease and heritable predisposition. 2 Inflammation-mediated proteolysis and disorganized extracellular remodeling within the aortic wall are seminal pathophysiologic events leading to progressive aortic enlargement and ultimate rupture. 3 Intraluminal hemodynamic conditions (specifically flow-related wall shear stress or strain patterns) also mediate structural changes in both aneurysmal and occlusive aortic diseases. 4 -9 Conclusions-Flow

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Hemodynamic forces regulate mural macrophage infiltration in experimental aortic aneurysms

Sho

Hoshina

et al. 2004

Experimental and Molecular Pathology

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