Role of Nerve Growth Factor in Cutaneous Wound Healing: Accelerating Effects in Normal and Healing-impaired Diabetic Mice

Four full-thickness skin wounds made in normal mice led to the significant increase in levels of nerve growth factor (NGF) in sera and in wounded skin tissues. Since sialoadenectomy before the wounds inhibited the rise in serum levels of NGF, the NGF may be released from the salivary gland into the blood stream after the wounds. In contrast, the fact that messenger RNA and protein of NGF were detected in newly formed epithelial cells at the edge of the wound and fibroblasts consistent with the granulation tissue produced in the wound space, suggests that NGF was also produced at the wounded skin site. Topical application of NGF into the wounds accelerated the rate of wound healing in normal mice and in healing-impaired diabetic KK/Ta mice. This clinical effect of NGF was evaluated by histological examination; the increases in the degree of reepithelialization, the thickness of the granulation tissue, and the density of extracellular matrix were observed. NGF also increased the breaking strength of healing linear wounds in normal and diabetic mice. These findings suggested that NGF immediately and constitutively released in response to cutaneous injury may contribute to wound healing through broader biological activities, and NGF improved the diabetic impaired response of wound healing.

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Nerve growth factor accelerates wound healing in diabetic mice

Wound Repair and Regeneration ◽

10.1111/j.1067-1927.2004.012110.x-1 ◽

2004 ◽

Vol 12 (1) ◽

pp. 44-52 ◽

Cited By ~ 44

Author(s):

Pornprom Muangman ◽

Lara A. Muffley ◽

Joanne P. Anthony ◽

Michelle L. Spenny ◽

Robert A. Underwood ◽

...

Keyword(s):

Wound Healing ◽

Nerve Growth Factor ◽

Growth Factor ◽

Diabetic Mice ◽

Nerve Growth

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Effects of Topical Application of CHF6467, a Mutated Form of Human Nerve Growth Factor, on Skin Wound Healing in Diabetic Mice

Journal of Pharmacology and Experimental Therapeutics ◽

10.1124/jpet.120.000110 ◽

2020 ◽

Vol 375 (2) ◽

pp. 317-331

Author(s):

A. Giuliani ◽

L. Lorenzini ◽

V.A. Baldassarro ◽

M. Pannella ◽

M. Cescatti ◽

...

Keyword(s):

Wound Healing ◽

Nerve Growth Factor ◽

Growth Factor ◽

Topical Application ◽

Skin Wound ◽

Diabetic Mice ◽

Skin Wound Healing ◽

Nerve Growth ◽

Human Nerve

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Sustained Release of Insulin-Like Growth Factor-1 from Bombyx mori L. Silk Fibroin Delivery for Diabetic Wound Therapy

International Journal of Molecular Sciences ◽

10.3390/ijms22126267 ◽

2021 ◽

Vol 22 (12) ◽

pp. 6267

Author(s):

Meng-Jin Lin ◽

Mei-Chun Lu ◽

Hwan-You Chang

Keyword(s):

Wound Healing ◽

Growth Factor ◽

Sustained Release ◽

Silk Fibroin ◽

Granulation Tissue ◽

Release Rate ◽

Insulin Like Growth Factor ◽

Diabetic Wound ◽

Diabetic Mice ◽

Wound Therapy

The goals of this study are to develop a high purity patented silk fibroin (SF) film and test its suitability to be used as a slow-release delivery for insulin-like growth factor-1 (IGF-1). The release rate of the SF film delivering IGF-1 followed zero-order kinetics as determined via the Ritger and Peppas equation. The release rate constant was identified as 0.11, 0.23, and 0.09% h−1 at 37 °C for SF films loaded with 0.65, 6.5, and 65 pmol IGF-1, respectively. More importantly, the IGF-1 activity was preserved for more than 30 days when complexed with the SF film. We show that the IGF-1-loaded SF films significantly accelerated wound healing in vitro (BALB/3T3) and in vivo (diabetic mice), compared with wounds treated with free IGF-1 and an IGF-1-loaded hydrocolloid dressing. This was evidenced by a six-fold increase in the granulation tissue area in the IGF-1-loaded SF film treatment group compared to that of the PBS control group. Western blotting analysis also demonstrated that IGF-1 receptor (IGF1R) phosphorylation in diabetic wounds increased more significantly in the IGF-1-loaded SF films group than in other experimental groups. Our results suggest that IGF-1 sustained release from SF films promotes wound healing through continuously activating the IGF1R pathway, leading to the enhancement of both wound re-epithelialization and granulation tissue formation in diabetic mice. Collectively, these data indicate that SF films have considerable potential to be used as a wound dressing material for long-term IGF-1 delivery for diabetic wound therapy.

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