Augmentation of Allergic Early-Phase Reaction by Nerve Growth Factor

Päth, G; Braun, Armin; Meents, Nina; Kerzel, Sebastian; Quarcoo, David; Raap, Ulrike; Hoyle, Gary W.; Nockher, Wolfgang Andreas; Renz, Harald

doi:10.1164/rccm.200202-134oc

Cited by 97 publications

(94 citation statements)

References 91 publications

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“…The reason for this unexpected result remains unclear. Several studies have shown that NGF seems to have not just an islet regulatory role [19][20][21][22] but also pro-inflammatory properties, [27][28][29][30] mediating effects such as lymphocyte [31][32][33][34][35] and macrophage activation, 32,36,37 eosinophil chemotaxis, 38 and mast cell survival and degranulation. 39 One possible explanation for the discrepancy in our results is that NGF-treated islets may stimulate immunocompetent cells after intraportal islet transplantation.…”

Section: Do Not Distributementioning

confidence: 99%

“…45 As described above, several studies suggest that NGF can activate immunocompetent cells such as lymphocytes, macrophages and granulocytes. [27][28][29][30][31][32][33][34][35][36][37][38][39] Although several reports show the relationship between VEGF and inflammation, 46,47 to our knowledge there is no compelling evidence that VEGF directly activates immunocompetent cells. This difference in pro-inflammatory properties of growth factors might be one of the reasons for the discrepancy in transplant outcome.…”

Section: Do Not Distributementioning

confidence: 99%

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Nerve growth factor is associated with islet graft failure following intraportal transplantation

Saito

Chan

Sakata

et al. 2012

Islets

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Nerve growth factor (NGF) has recently been recognized as an angiogenic factor with an important regulatory role in pancreatic b-cell function. We previously showed that treatment of pancreatic islets with NGF improved their quality and viability. Revascularization and survival of islets transplanted under the kidney capsule were improved by NGF. However, the usefulness of NGF in intraportal islet transplantation was not previously tested. To resolve this problem, we transplanted syngeneic islets (360 islet equivalents per recipient) cultured with or without NGF into the portal vein of streptozotocin-induced diabetic BALB/c mice. Analysis revealed that 44.4% (4/9) of control and 12.5% (1/8) of NGF-treated mice attained normoglycemia (# 200 mg/dL) (p = 0.195). NGF-treated islets led to worse graft function (area under the curve of intraperitoneal glucose tolerance tests (IPGTT) on post-operative day (POD) 30, control; 35,800 ± 3,960 min*mg/dl, NGF-treated; 47,900 ± 3,220 min*mg/dl: *p = 0.0348). NGF treatment of islets was also associated with increased graft failure [the percentage of TdT-mediated dUTP-biotin nick-end labeling (TUNEL)-positive and necrotic transplanted islets on POD 5, control; 23.8% (5/21), NGF-treated; 52.9% (9/17): p = 0.0650] following intraportal islet transplantation. Nonviable (TUNEL-positive and necrotic) islets in both groups expressed vascular endothelial growth factor (VEGF) and hypoxia-inducible factor-1a (HIF-1a). On the other hand, viable (TUNEL-negative and not necrotic) islets in both groups did not express VEGF and HIF-1a. In the present study, pre-transplant NGF treatment was associated with impaired survival and angiogenesis of intraportal islet grafts. The effect of NGF on islet transplantation may significantly vary according to the transplant site.

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Section: Do Not Distributementioning

confidence: 99%

Section: Do Not Distributementioning

confidence: 99%

Nerve growth factor is associated with islet graft failure following intraportal transplantation

Saito

Chan

Sakata

et al. 2012

Islets

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show abstract

“…Only one study by Ehrhard and co-workers clearly demonstrates involvement of the TrkA receptor in NGF-induced activation of T lymphocytes in vitro (Ehrhard et al, 1994). In vivo, NGF effects on T lymphocytes remain controversial, since two studies conducted in a mouse model of asthma failed to show NGF-related effects on T cells (Braun et al, 1998;Path et al, 2002). However, in a transgenic mouse tissue-specifically overexpressing NGF in the lung, increased numbers of T lymphocytes have been shown in the lung after allergenic challenge (Quarcoo et al, 2004).…”

Section: T and B Cellsmentioning

confidence: 99%

“…In a mouse model of asthma, NGF inhibition induced by blocking antibodies administered in vivo decreases airway inflammation (Braun et al, 1998;Path et al, 2002). On the contrary, allergen sensitization and challenge in a transgenic mouse tissue specifically overexpressing NGF in the lung displays greater airway inflammation (Path et al, 2002;Quarcoo et al, 2004).…”

Section: Asthmamentioning

confidence: 99%

“…On the contrary, allergen sensitization and challenge in a transgenic mouse tissue specifically overexpressing NGF in the lung displays greater airway inflammation (Path et al, 2002;Quarcoo et al, 2004). In vivo administration of a pan-Trk receptor decoy in a mouse model of asthma reduces interleukin-(IL-)4 and IL-5 cytokine levels (Nassenstein et al, 2006).…”

Section: Asthmamentioning

confidence: 99%

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