Calcitonin effects on cartilage and fracture healing

The literature about the effects of systemically administered calcitonin on fracture healing and in the prevention of disuse osteoporosis after fracture are reviewed in this study. Fracture healing is a biological process of great importance for the survival of the injured animal. Endochondral ossification is augmented in the fracture site followed by fast remodeling of the produced woven bone. There is strong evidence of the direct effects of calcitonin on cartilage proliferation as well as the vascularization of the callus. Calcitonin is found to promote the cartilaginous phase of fracture healing. On the other hand, the innervation of callus reveals an extensive distribution of sensory fibers containing a calcitonin gene-related peptide, a neuropeptide with potent vasodilatory actions. From several experimental studies, salmon calcitonin administration has been found to have a beneficial effect on fracture healing. Studies in humans also concur that calcitonin may speed up the time of fracture repair and facilitate early mobilization of the injured limb. Finally, calcitonin prevents post-fracture bone loss due to increased post-injury remodeling and lowers hydroxyproline and calcium excretion of patients who underwent internal fixation of fracture on the hip.     

重组成骨生长肽对骨折愈合影响的实验研究

目的成骨生长肽(osteogenic growthpeptide,OGP)是具有促进成骨和刺激造血等多方面作用的14肽。本实验旨在研究重组OGP(rOGP)的促成骨活性。方法一、检验动物模型骨折后不同时期血清Ca、P、AKP(碱性磷酸酶)水平;二、作骨折断端病理切片;以观察rOGP对骨折愈合的影响。结果．rOCP具有降低血清Ca,升高血清P、AKP及加速骨折愈合的作用,且其促成骨效果明显优于目前临床常用的促成骨生物制剂骨宁注射液。结论     

Acceleration of healing,reduction of fibrotic scar,and normalization of tissue architecture by an angiotensin analogue,NorLeu3-A(1-7)

Angiotensin peptides have been demonstrated to modulate cellular proliferation, angiogenesis, and dermal repair. In this report, the effects of an analogue of the active angiotensin peptide angiotensin(1-7), namely norLeu3-angiotensin(1-7) (NorLeu3-A(1-7)), on the healing of epithelial wounds are presented. Three models were used to evaluate the normal (rats) and delayed (diabetic mice) healing responses of full-thickness excision wounds and the healing responses of full-thickness incision wounds (rats). NorLeu3-A(1-7) was superior to the naturally occurring angiotensin peptide angiotensin(1-7) and to Regranex (Ortho McNeil, Somerville, N.J.) (a formulation of recombinant platelet-derived growth factor used clinically for the treatment of diabetic ulcers) in accelerating tissue repair. By day 9 (normal rats) and day 11 (diabetic mice), the differences in the rates of closure of full-thickness excision wounds between NorLeu3-A(1-7) and Regranex were statistically significant (n = 5 per group). Full healing was observed for 60 percent of the diabetic mice treated topically with NorLeu3-A(1-7) by day 18 after injury, at which time full healing of wounds on placebo-treated or Regranex-treated diabetic mice was not observed. In the rat incision model, accelerated healing and reduced gross appearance of scarification were observed. Administration of NorLeu3-A(1-7) reduced fibrosis and scarring in the healing wounds. This action was more pronounced with longer administration of the peptide after injury. In fact, if systemic administration of the peptide (NorLeu3-A(1-7)) was continued during the remodeling phase, then the formation of new adnexal structures at the center of full-thickness excision wounds was observed, with an increase in the appearance of small immature hair follicles at the sites of the excision wounds. The action of this peptide was blocked by the AT receptor antagonist d-Ala7-angiotensin(1-7), which suggests that this receptor is involved in the healing responses to exogenous NorLeu3-A(1-7). These data suggest that this novel angiotensin peptide has the potential to be of benefit in accelerating wound repair and reducing scar formation.     

Engineering D-Amino Acid Containing Collagen Like Peptide at the Cleavage Site of Clostridium histolyticum Collagenase for Its Inhibition

Collagenase is an important enzyme which plays an important role in degradation of collagen in wound healing, cancer metastasis and even in embryonic development. However, the mechanism of this degradation has not yet been completely understood. In the field of biomedical and protein engineering, the design and development of new peptide based materials is of main concern. In the present work an attempt has been made to study the effect of ^DAla in collagen like peptide (imino-poor region of type I collagen) on the structure and stability of peptide against enzyme hydrolysis. Effect of replacement of ^DAla in the collagen like peptide has been studied using circular dichroic spectroscopy (CD). Our findings suggest that, ^DAla substitution leads to conformational changes in the secondary structure and favours the formation of polyproline II conformation than its L-counterpart in the imino-poor region of collagen like peptides. Change in the chirality of alanine at the cleavage site of collagenase in the imino-poor region inhibits collagenolytic activity. This may find application in design of peptides and peptidomimics for enzyme-substrate interaction, specifically with reference to collagen and other extra cellular matrix proteins.     

Opioid activity of peptides and wound healing of the skin

The binding of dalargin, its four analogues and FK-33824, DADLE, met-enkephalin and morphine to peripheral mu- and delta-receptors and to brain receptors has been investigated in comparison with their influence on skin wound healing in rats. It has been shown that only substances with opiate activity, including morphine, stimulated wound healing. No correlation between wound healing effect of peptides and their binding to a definite receptor has been found. Naloxone inhibited wound healing and suppressed opiate peptide-mediated healing process. It is suggested that endogenous opiate peptides are involved in the maintenance of structural homeostasis.     

Neutralisation of TGF beta or binding of VLA-4 to fibronectin prevents rat tendon adhesion following transection

Following tendon injury, severe loss of function often occurs either as a result of obliteration of the synovial canal with fibrous scar tissue or from rupture of the repaired tendon. The role of cell engineering in tendon repair is to promote strong and rapid healing of tendon whilst at the same time facilitating rapid reconstitution of the synovial canal. Modification of the immediate inflammatory response around healing tendon has been found to be of value. Experimentally this has been achieved by neutralisation of transforming growth factor-beta over the first 3 days following injury, or by blockade of inflammatory cell binding to the CS-1 locus on fibronectin with an anti-VLA-4 antibody, or with the synthetic VLA-4 inhibitor, CS-1 peptide, in a rat model of tendon transection. It is concluded from this pilot study that the treatments described hold promise in improving outcomes of the common clinical problem of tendon injury in man.     

A potential wound healing-promoting peptide from frog skin

Cutaneous wound healing is a dynamic, complex, and well-organized process that requires the orchestration of many different cell types and cellular processes. Transforming growth factor β1 is an important factor that plays a key role during wound healing. Amphibian skin has been proven to possess excellent wound healing ability, whilst no bioactive substrate related to it has ever been identified. Here, a potential wound healing-promoting peptide (AH90, ATAWDFGPHGLLPIRPIRIRPLCG) was identified from the frog skin of Odorrana grahami. It showed potential wound healing-promoting activity in a murine model with full thickness dermal wound. AH90 promoted release of transforming growth factor β1 through activation of nuclear factor-κB and c-Jun NH2-terminal kinase mitogen-activated protein kinases signaling pathways, while inhibitors of nuclear factor-κB and c-Jun NH2-terminal kinase inhibited the process. In addition, the effects of AH90 on Smads family proteins, key regulators in transforming growth factor β1 signaling pathways, could also be inhibited by transforming growth factor β1 antibody. Altogether, this indicated that AH90 promoted wound healing by inducing the release of transforming growth factor β1. This current study may facilitate the understanding of effective factors involved in the wound repair of amphibians and the underlying mechanisms as well. Considering its favorable traits as a small peptide that greatly promoting generation of endogenous wound healing agents (transforming growth factor β1) without mitogenic effects, AH90 might be an excellent template for the future development of novel wound-healing agents.     

细胞因子对创伤愈合的影响

创伤愈合是一个复杂的生物学过程,涉及炎症细胞,修复细胞、细胞外基质以及细胞因子之间的相互作用。传统将这一过程分为炎症期、增值期、组织重构三个相互重叠的时期。细胞因子是一类对细胞生长、分化有明显调控作用的小分子生物活性多肽。是细胞与细胞外基质间重要的信号传导物。多种生长因子被释放到伤口部位被认为是创伤愈合所必需的。本文就细胞因子对创伤愈合的促进作用、细胞因子相互之间的协同作用,以及应用前景作以概述。     

The antagonism of glucocorticoid inhibition of wound healing in rats by growth hormone-releasing factor

Daily therapeutic injections of cortisone to rats will cause weight loss and impaired wound healing. Weight loss is attributed to the catabolic effect of steroid, whereas impaired healing is associated with reductions in fibroplasia and connective tissue deposition. As the major structural protein component of connective tissue is collagen, its absence is responsible for the retarded gain in wound breaking strength. Cortisone also blocks wound closure by inhibiting wound contraction. An anabolic agent such as growth hormone may antagonize the effect of cortisone on the wound healing process. Endogenous GH can be released from the pituitary by exogenous injections of growth hormone-releasing factor (GRF). Two synthetic GRF peptides, a natural 44-amino acid peptide of the human GRF sequence, GRF-44, and an N-terminally substituted analog 29 residues, GRF-29A, were studied. Each was given twice daily with a single daily injection of cortisone for a 7-day period. Concurrent administration of GRF-44 or GRF-29A and cortisone to rats had no effect on restored body weight loss or inhibited wound contraction. While GRF-44 restored collagen deposition and caused restored wound breaking strength, GRF-29A was ineffective in restoring either. GRF-44, a synthetic peptide that stimulates pituitary release of growth hormone, antagonized some of the inhibiting effect of steroid on wound repair by promoting fibroplasia and collagen deposition.     

Accumulation of human EGF in nectar of transformed plants of Nicotiana langsdorffii x N. sanderae and transfer to honey by bees

Honey has been used successfully in wound healing for thousands of years. The peptide hormone human epidermal growth factor (hEGF) is also known to have a beneficial effect in various wound healing processes via mechanisms that differ from those for honey. In this study, we show that hEGF can be incorporated into honey via nectar. Plants of Nicotiana langsdorffii × N. sanderae were transformed with the gene for hEGF, equipped with a nectary‐targeted promoter and a signal sequence for secretion to nectar. These plants accumulated hEGF in the nectar. The maximum hEGF concentration recorded with ELISA in these plants is 2.5 ng·ml^?1. There is a significant linear relationship (P < 0.001) between hEGF concentration and induction of hEGF‐receptor phosphorylation. Since the flower morphology of these plants did not allow production of honey from their nectar, we used feeding solutions, spiked with synthetic hEGF, to study transfer of this peptide into honey through bee activity. Transfer of hEGF from a feeding solution to honey by bees occurred with retention of the hEGF concentration and the capacity to induce hEGF‐receptor phosphorylation. These observations indicate that plants can function as a production platform for honey containing biologically active peptides, which may enhance wound healing and other biological processes.     

Effect of the delta-sleep peptide on parasympathetic regulation of the cardiac rhythm

Effect of delta-sleep peptide (60 nM/kg) on the parasympathetic regulation of cardiac activity has been studied in the experiments on rabbits. It has been established that intravenous administration of this peptide to voluntary-behaving animals results in heart rate reduction by an average of 16%, that can be eliminated by atropine. Delta-sleep peptide has been demonstrated to intensify negative chronotropic effect in the case of directly irritated wandering nerve. The data obtained explain a protective effect of delta-sleep peptide on the heart under emotional stress.     

Wound Healing Activity of Phage-Sisplayed TGF-β1 Model Peptide in Streptozotocin-Induced Diabetic Rats

International Journal of Peptide Research and Therapeutics - To evaluate the effect of phage-displayed TGF-β1 model peptide on cutaneous wound healing in streptozotocin-induced diabetic rats....     

Wound healing activity of the human antimicrobial peptide LL37

Antimicrobial peptides (AMPs) are part of the innate immune system and are generally defined as cationic, amphipathic peptides, with less than 50 amino acids, including multiple arginine and lysine residues. The human cathelicidin antimicrobial peptide LL37 can be found at different concentrations in many different cells, tissues and body fluids and has a broad spectrum of antimicrobial and immunomodulatory activities. The healing of wound is a complex process that involves different steps: hemostasis, inflammation, remodeling/granulation tissue formation and re-epithelialization. Inflammation and angiogenesis are two fundamental physiological conditions implicated in this process. We have recently developed a new method for the expression and purification of recombinant LL37. In this work, we show that the recombinant peptide P-LL37 with a N-terminus proline preserves its immunophysiological properties in vitro and in vivo. P-LL37 neutralized the activation of macrophages by lipopolysaccharide (LPS). Besides, the peptide induced proliferation, migration and tubule-like structures formation by endothelial cells. Wound healing experiments were performed in dexamethasone-treated mice to study the effect of LL37 on angiogenesis and wound regeneration. The topical application of synthetic and recombinant LL37 increased vascularization and re-epithelialization. Taken together, these results clearly demonstrate that LL37 may have a key role in wound regeneration through vascularization.     

Design of a bactericidal hydrogel scaffold containing genipin crosslinked HF-18 peptide

Wound healing is a process getting affected by internal and external factors and might be interrupted by infections. To overcome infections during wound healing, novel antibacterial agents such as antimicrobial peptides have gained popularity because of the rising antibiotic resistance. Therefore, in this study, a three-dimensional polymeric scaffold was designed for the controlled release of HF-18 peptide, with the contribution of hyaluronic acid, chondroitin sulfate, and chitosan polymers with the crosslinker genipin. The obtained scaffold structure (OPT) was found to have interconnected pores, was pH-responsive and swelled more in acidic conditions (5446.5% at pH: 5.0). It was observed that HF-18-loaded OPT (P-OPT) was able to release HF-18 peptide both in acidic and neutral conditions in a controlled release manner. This study also demonstrated that both OPT and P-OPT were biocompatible and promoted L929 cell attachment and migration. Antimicrobial activity assessments demonstrated that P-OPT was effectively bactericidal on Staphylococcus aureus and methicillin-resistant S. aureus. Moreover, OPT produced a synergistic effect on the antimicrobial activity of HF-18 peptide, as P-OPT showed activity below the reported MIC value. As a result, OPT is considered a promising scaffold as a carrier for HF-18 for wound healing.     

Lumican Binds ALK5 to Promote Epithelium Wound Healing

Lumican (Lum), a small leucine-rich proteoglycan (SLRP) family member, has multiple matricellular functions both as an extracellular matrix component and as a matrikine regulating cell proliferation, gene expression and wound healing. To date, no cell surface receptor has been identified to mediate the matrikine functions of Lum. This study aimed to identify a perspective receptor that mediates Lum effects on promoting wound healing. Transforming growth factor-β receptor 1 (ALK5) was identified as a potential Lum-interacting protein through in silico molecular docking and molecular dynamics. This finding was verified by biochemical pull-down assays. Moreover, the Lum function on wound healing was abrogated by an ALK5-specific chemical inhibitor as well as by ALK5 shRNAi. Finally, we demonstrated that eukaryote-specific post-translational modifications are not required for the wound healing activity of Lum, as recombinant GST-Lum fusion proteins purified from E. coli and a chemically synthesized LumC₁₃ peptide (the last C-terminal 13 amino acids of Lum) have similar effects on wound healing in vitro and in vivo.     

In silico Mechano-Chemical Model of Bone Healing for the Regeneration of Critical Defects: The Effect of BMP-2

The healing of bone defects is a challenge for both tissue engineering and modern orthopaedics. This problem has been addressed through the study of scaffold constructs combined with mechanoregulatory theories, disregarding the influence of chemical factors and their respective delivery devices. Of the chemical factors involved in the bone healing process, bone morphogenetic protein-2 (BMP-2) has been identified as one of the most powerful osteoinductive proteins. The aim of this work is to develop and validate a mechano-chemical regulatory model to study the effect of BMP-2 on the healing of large bone defects in silico. We first collected a range of quantitative experimental data from the literature concerning the effects of BMP-2 on cellular activity, specifically proliferation, migration, differentiation, maturation and extracellular matrix production. These data were then used to define a model governed by mechano-chemical stimuli to simulate the healing of large bone defects under the following conditions: natural healing, an empty hydrogel implanted in the defect and a hydrogel soaked with BMP-2 implanted in the defect. For the latter condition, successful defect healing was predicted, in agreement with previous in vivo experiments. Further in vivo comparisons showed the potential of the model, which accurately predicted bone tissue formation during healing, bone tissue distribution across the defect and the quantity of bone inside the defect. The proposed mechano-chemical model also estimated the effect of BMP-2 on cells and the evolution of healing in large bone defects. This novel in silico tool provides valuable insight for bone tissue regeneration strategies.     

Human endogenous antibiotic LL-37 stimulates airway epithelial cell proliferation and wound closure

Antimicrobial peptides are endogenous antibiotics that directly inactivate microorganisms and in addition have a variety of receptor-mediated functions. LL-37/hCAP-18 is the only cathelicidin found in humans and is involved in angiogenesis and regulation of the innate immune system. The aim of the present study was to characterize the role of the peptide LL-37 in the regulation of wound closure of the airway epithelium in the cell line NCI-H292 and primary airway epithelial cells. LL-37 stimulated healing of mechanically induced wounds in monolayers of the cell line and in differentiated primary airway epithelium. This effect was detectable at concentrations of 5 mug/ml in NCI-H292 and 1 mug/ml in primary cells. The effect of LL-37 on wound healing was dependent on the presence of serum. LL-37 induced cell proliferation and migration of NCI-H292 cells. Inhibitor studies in the wound closure and proliferation assays indicated that the effects caused by LL-37 are mediated through epidermal growth factor receptor, a G protein-coupled receptor, and MAP/extracellular regulated kinase. In conclusion, LL-37 induces wound healing, proliferation, and migration of airway epithelial cells. The peptide is likely involved in the regulation of tissue homeostasis in the airways.     

Isolation of fibronectin type III like peptide from human placental extract used as wound healer

A peptide of around 7.4 kDa has been purified from the aqueous extract of human placenta used as wound healer. Derived partial amino acid sequence from mass spectrometric analysis showed its homology with human fibronectin type III. Under nondenaturing condition, it formed aggregate, the elution pattern of which from reverse-phase HPLC was identical with that of fibronectin type III. Immuno-blot of the peptide with reference fibronectin type III-C showed strong cross reactivity. Since fibronectin type III plays important roles in wound healing, similar peptide in the extract is likely to take part in curing process.     

Effects of opioid peptide dalargin on reparative processes in wound healing

At intraperitoneal injection and local application of opioid peptide dalargin induces fibroblast proliferation (3-fold increase in the mitotic index) and growth of capillaries, accelerates the maturation of granulation tissue and of scar, epitheliazation of the defect, and considerably reduces the period of healing of skin wound in rats. The stimulating action of dalargin is associated with its effect on the microcirculation system and activation of the macrophage-fibroblast interaction. Possessing the triggering mechanism, the drug induces a cascade of inflammatory-reparative reactions, which reduce the duration of all healing stages.