Nonmuscle myosin IIA and IIB have distinct functions in the exocytosis-dependent process of cell membrane repair

Vesicle generation, recruitment, and exocytosis are essential for repairing disruptions of cell membranes. The functions of nonmuscle myosin IIA and IIB in this exocytotic process of membrane repair were studied by the antisense technique. Knockdown of myosin IIB suppressed wound-induced exocytosis and the membrane resealing process. Knockdown of myosin IIA did not suppress exocytosis at an initial wound and had no inhibitory effect on the resealing at initial wounds but did inhibit the facilitated rate of resealing normally found at repeated wounds made at the same site. COS-7 cells, which lack myosin IIA, did not show the facilitated response of membrane resealing to a repeated wound. S91 melanoma cells, a mutant cell line lacking myosin Va, showed normal membrane resealing and normal facilitated responses. We concluded that myosin IIB was required for exocytosis and therefore cell membrane repair itself and that myosin IIA was required in facilitation of cell membrane repair at repeated wounds. Myosin IIB was primarily at the subplasmalemma cortex and myosin IIA was concentrated at the trans-Golgi network consistent with their distinct roles in vesicle trafficking in cell membrane repair.     

Repairing Facial Injury with Refining Plastic Surgery Techniques

The purpose of this study was to evaluate the refining plastic surgery techniques for repairing facial surface injury. For this purpose, 82 patients with facial surface injury were recruited in the study. All wounds were repaired by refining plastic surgery techniques. The wounds were processed by fine wound excision and plastic surgery repair technique. The deep tissue fracture and dislocation were sutured and reduced using 8-0 absorbable suture and the skin wounds were sutured using 8-0 cosmetic suture. The facial injuries showed good rates of healing with fine debridement and fine recovering. The minimum scarring was observed and good cosmetic effect was achieved. We conclude that refining plastic surgery techniques including fine debridement and fine recovering are ideal for the reconstruction of facial injuries.     

Acute ethanol exposure impairs angiogenesis and the proliferative phase of wound healing

Acute ethanol exposure represents an increased risk factor for morbidity and mortality associated with surgical or traumatic injury. Despite clinical observations suggesting that ethanol exposure before injury alters tissue repair processes, little direct evidence about the mechanism by which ethanol affects the wound healing process is available. In this study, excisional wounds from female BALB/c mice with or without circulating ethanol levels of 100 mg/dl were used to assess wound closure, angiogenesis, and collagen content. Ethanol exposure resulted in a significant but transient delay in wound closure at day 2 postwounding (28 +/- 4% vs. 17 +/- 1%). In addition, total collagen content was significantly reduced by up to 37% in wounds from ethanol-treated mice compared with controls. The most significant effect of ethanol exposure on wounds was on vascularity because angiogenesis was reduced by up to 61% in wounds from ethanol-treated mice. The reduction in vessel density occurred despite near-normal levels of proangiogenic factors VEGF and FGF-2, suggesting a direct effect of ethanol exposure on endothelial cell function. Further evidence for a direct effect was observed in an in vitro angiogenesis assay because the exposure of endothelial cells to ethanol reduced angiogenic responsiveness to just 8.33% of control in a cord-forming assay. These studies provide novel information regarding the effect of a single dose of ethanol on multiple parameters of the wound healing process in vivo and suggest a potential mechanism by which ethanol impairs healing after traumatic injury.     

In vivo degradation of fetal wound hyaluronic acid results in increased fibroplasia, collagen deposition, and neovascularization.

Fetal tissue repair occurs without acute inflammation, prominent fibroplasia, or marked neovascularization. The fetal wound extracellular matrix is rich in hyaluronic acid (HA), while collagen is deposited in an organized normal dermal pattern. In various biologic systems, including regeneration and development, the controlled accumulation and subsequent degradation of hyaluronic acid is associated with distinct cellular and matrix events. Therefore, it is hypothesized that the abundance of hyaluronic acid in fetal wounds may influence cellular and/or matrix events such that tissue repair is highly organized and adult-like scarring does not occur. To test this hypothesis, the hyaluronic acid content of fetal rabbit wounds was reduced by specific degradation with Streptomyces hyaluronidase. Control wounds were treated with either enzyme buffer (n = 12) or denatured enzyme solution (n = 8) and exhibited a normal fetal healing response with scattered peripheral fibroblasts, a matrix of hyaluronic acid, and no infiltrating collagen. In marked contrast, the hyaluronidase-treated wounds (n = 14) demonstrated increased fibroblast infiltration, collagen deposition, and capillary formation. A significant reduction in the hyaluronic acid content of the hyaluronidase-treated wounds was confirmed biochemically. Since the degradation of hyaluronic acid resulted in an altered healing response, this study demonstrates that hyaluronic acid affects the cellular and matrix events in fetal healing and may be partially responsible for the unique qualities of this regenerative repair process.     

Serum lipidomics-based study of electroacupuncture for skin wound repair in rats

Lipid metabolism plays an important role in the repair of skin wounds. Studies have shown that acupuncture is very effective in skin wound repair. However, there is little knowledge about the mechanism of electroacupuncture. Thirty-six SD rats were divided into three groups: sham-operated group, model group and electroacupuncture group, with six rats in each group. After the intervention, orbital venous blood was collected for lipid metabolomics analysis, wound perfusion was detected and finally the effect of electroacupuncture on skin wound repair was comprehensively evaluated by combining wound healing rate and histology. Lipid metabolomics analysis revealed 11 differential metabolites in the model versus sham-operated group. There were 115 differential metabolites in the model versus electro-acupuncture group. 117 differential metabolites in the electro-acupuncture versus sham-operated group. There were two differential metabolites common to all three groups. Mainly cholesteryl esters and sphingolipids were elevated after electroacupuncture and triglycerides were largely decreased after electroacupuncture. The electroacupuncture group recovered faster than the model group in terms of blood perfusion and wound healing (p < 0.05). Electroacupuncture may promote rat skin wound repair by improving lipid metabolism and improving local perfusion.     

Decreased expression of Flightless I, a gelsolin family member and developmental regulator, in early-gestation fetal wounds improves healing

Up until late in the third trimester of gestation and through to adulthood, the healing response acts more to regenerate than to repair a wound. The mechanisms underlying this ??scar-free?? healing remain unknown although the actin cytoskeleton has a major role. Flightless I (Flii), an actin-remodelling protein and essential developmental regulator, negatively affects wound repair but its effect on scar-free fetal healing is unknown. Using fetal skin explants from E17 (regenerate) and E19 (repair) rats, the function of Flii in fetal wound repair was determined. Expression of Flii increased between E17 and E19?days of gestation and wounding transiently increased Flii expression in E17 but not E19 wounds. However, both confocal and immunofluorescent analysis showed E17 keratinocytes immediately adjacent to the wounds downregulated Flii. As a nuclear coactivator and inhibitor of proliferation and migration, the absence of Flii in cells at the edge of the wound could be instrumental in allowing these cells to proliferate and migrate into the wound deficit. In contrast, Flii was strongly expressed within the cytoplasm and nucleus of keratinocytes within epidermal cells at the leading edge of E19 wounded fetal skin explants. This increase in Flii expression in E19 wounds could affect the way these cells migrate into the wound space and contribute to impaired wound healing. Neutralising Flii protein improved healing of early- but not late-gestation wounds. Flii did not colocalise with actin cables formed around E17 wounds suggesting an independent mechanism of action distinct from its actin-binding function in scar-free wound repair.     

Hormonal stimulation of the reparative process in the skin or fats with vitamin A deficiency]

The effect of thyroid hormone on the regeneration of skin of A-deficient rats was studied. It was established that the reparative process in such animals was considerably retarded due to disturbances of the intensity and the character of the reaction. Under these conditions the succession of main stages of the regenerative process was maintained but there occurred a number of important qualitative and quantitative morphological disorders which substantially changed the course of healing of skin wounds. An additional injection of the thyroid hormone against this background had a favourable effect upon the skin regeneration but failed to produce a typical stimulating effect, characteristic of the hormonal agent in normality.     

IL-5-overexpressing mice exhibit eosinophilia and altered wound healing through mechanisms involving prolonged inflammation

Leucocytes are essential in healing wounds and are predominantly involved in the inflammatory and granulation stages of wound repair. Eosinophils are granulocytic leucocytes and are specifically regulated by interleukin-5 (IL-5), a cytokine produced by T helper 2 (Th2) cells. To characterize more clearly the role of the IL-5 and eosinophils in the wound healing process, IL-5-overexpressing and IL-5-deficient mice were used as models of eosinophilia and eosinophil depletion, respectively. Our results reveal a significantly altered inflammatory response between IL-5-overexpressing and IL-5 knockout mice post-wounding. Healing was significantly delayed in IL-5-overexpressing mice with wounds gaping wider and exhibiting impaired re-epithelialization. A delay in collagen deposition was observed suggesting a direct effect on matrix synthesis. A significant increase in inflammatory cell infiltration, particularly eosinophils and CD4(+) cells, one of the main cell types which secrete IL-5, was observed in IL-5-overexpressing mice wounds suggesting that one of the main roles of IL-5 in wound repair may be to promote the infiltration of eosinophils into healing wounds. Healing is delayed in IL-5-overexpressing mice and this corresponds to significantly increased levels of eosinophils and CD4(+) cells within the wound site that may contribute to and exacerbate the inflammatory response, resulting in detrimental wound repair.     

Exogenous non-crosslinked collagen enhances granulation tissue formation in dermal excision wounds in guinea pigs

Based on previous observations indicating a role for collagen peptides in eliciting a positive feedback for collagen biosynthesis, this study was initiated to elucidate the effect of non-crosslinked collagen on granulation tissue formation in dermal excision wounds. The wounds were treated with either non-crosslinked or crosslinked native collagen, or left untreated as controls. Granulation tissue was analyzed for collagen type I mRNA, for levels of interstitial collagen and for the number of blood vessels. The results indicated significant increases in procollagen type I mRNA, in interstitial collagen, in the number of blood vessels and in epithelial advance in the non-crosslinked collagen-treated wounds relative to the untreated controls. It is assumed that the presence of non-crosslinked collagen in a healing wound enhances both procollagen type I biosynthesis and the repair process of dermal wounds, due to the more readily released collagen peptides derived from this exogenous collagen dressing.     

Nerve dependency in scarless fetal wound healing

The human fetus is capable of healing cutaneous wounds without scar up to the third trimester of development This process of tissue repair is more akin to newt limb regeneration than classic adult scar forming wound repair. Regeneration of the newt limb is dependent on neural input in its early stages. This study was an attempt to determine whether a similar dependence on neural input exists for mammalian fetal wounds to heal without scar. The left hind limb of six fetal lambs was denervated during the early second trimester of development (day 55; term = 145 days). Two weeks after denervation, the animals were again exposed to create bilateral incisional and 6-mm-diameter excisional wounds on their innervated right and denervated left lower extremities. Five days after creation of these defects, the wounds were examined for alterations in repair. Four fetal lambs survived, and three were suitable for evaluation. There were marked alterations in wound healing seen after denervation. Excisional wounds on the innervated side contracted and decreased their surface area by 14 percent. In contrast, the denervated wounds not only failed to contract, but increased in size by 60 percent. Changes in the incisional wounds were equally distinctive. Innervated incisional wounds healed completely without scar and had a wound breaking strength comparable to that of normal skin (Table I). In contrast, two of the three denervated incisional wounds dehisced and failed to heal, even in the regions where the skin was approximated by suture. The third denervated incisional wound did heal but with a significant amount of scar. Electron microscopy confirmed this finding by clearly demonstrating thickened and irregular collagen deposition in the extracellular matrix of all the denervated incisional specimens. In summary, like the regenerating newt limb, scarless fetal skin wound repair requires neural stimulation for tissue regeneration to occur. Therefore, in the mammal, the primary regulator for this unique type of tissue repair may have a central neural, rather than a local, tissue origin.     

Quantitative characteristics of changes in the cellular composition and vascularization of aseptic wounds in rat skin, healing without treatment and during stimulation of repair processes by exogenous collagen

The changes in cellular composition and vascularization of aseptic wounds on the rat skin were assessed quantitatively using the ocular net without treatment and during stimulation of repair processes by exogenous collagen. An intensive increase in the number of macrophages, endotheliocytes and fibroblasts was observed in wounds without treatment by the fifth day, with maximum vascularization of the granulation tissue occurring by the seventh day. During stimulation of repair processes by collagen the macrophage reaction, proliferation of endotheliocytes and fibroblasts and vascularization of wounds were activated earlier, while the stereotype relationships of the cellular components remained unchanged. The intercellular relationships of the wound healing process are discussed.     

Transforming Growth Factor Beta 3 Is Required for Excisional Wound Repair In Vivo

Wound healing is a complex process that relies on proper levels of cytokines and growth factors to successfully repair the tissue. Of particular interest are the members of the transforming growth factor family. There are three TGF-ß isoforms–TGF- ß 1, 2, and 3, each isoform showing a unique expression pattern, suggesting that they each play a distinct function during development and repair. Previous studies reported an exclusive role for TGF-ß 3 in orofacial development and a potent anti-scarring effect. However, the role of TGF- ß 3 in excisional wound healing and keratinocyte migration remains poorly understood. We tested the effect of TGF-ß 3 levels on excisional cutaneous wounds in the adult mouse by directly injecting recombinant TGF-ß 3 or neutralizing antibody against TGF-ß 3 (NAB) in the wounds. Our results demonstrate that TGF-ß 3 does not promote epithelialization. However, TGF-ß 3 is necessary for wound closure as wounds injected with neutralizing antibody against TGF-ß 3 showed increased epidermal volume and proliferation in conjunction with a delay in keratinocyte migration. Wild type keratinocytes treated with NAB and Tgfb3-deficient keratinocytes closed an in vitro scratch wound with no delay, suggesting that our in vivo observations likely result from a paracrine effect.     

Cancer as an overhealing wound: an old hypothesis revisited

What is the relationship between the wound-healing process and the development of cancer? Malignant tumours often develop at sites of chronic injury, and tissue injury has an important role in the pathogenesis of malignant disease, with chronic inflammation being the most important risk factor. The development and functional characterization of genetically modified mice that lack or overexpress genes that are involved in repair, combined with gene-expression analysis in wounds and tumours, have highlighted remarkable similarities between wound repair and cancer. However, a few crucial differences were also observed, which could account for the altered metabolism, impaired differentiation capacity and invasive growth of malignant tumours.     

Care of the degloved penis and scrotum: a 25-year experience

Injuries to the penis and scrotum are both physically and mentally traumatic. If poorly managed in the acute setting, these injuries may become long-term problems or permanent disabilities. The purpose of this study was to review our approach to degloving injuries of the penis and scrotum and to present our experience. Over the past 25 years, we have cared for eight patients with complete degloving injuries of the genitalia. Farm equipment accidents were responsible for the majority of injuries. We attempted to close all wounds of the denuded penis and near-total avulsed scrotum at the initial operative intervention using the method of repair described. Postoperatively, all patients had an acceptable appearance and normal mictural and erectile function. We conclude that degloving injuries of the penis and scrotum can be best treated with this approach definitively in the acute setting with successful functional and aesthetic results.     

Polyunsaturated phosphatidylcholine and lipolysis: metabolic interactions in vitro and in vivo.

Polyunsaturated phosphatidylcholine (EPL) is known to have a number of effects on lipid metabolism. We tested the drug on rat adipose tissue in vitro: stimulated lipolysis was inhibited without any effect on cyclic AMP level. Administration of EPL in rats enhanced the basal lipolysis and inhibited the hormone stimulated process. In fasting rats, the high plasma FFA level was further increased by EPL, while no modification on total esterified fatty acids, glucose and cholesterol contents was found. These effects could be due to the activity of EPL on various enzymes, for instance lipoprotein lipase, or to a general effect on membranes.     

Electroacupuncture promotes skin wound repair by improving lipid metabolism and inhibiting ferroptosis

Lipid metabolism plays an important role in the repair of skin wounds. Studies have shown that acupuncture is very effective in skin wound repair. However, there is little knowledge about the mechanism of electroacupuncture. Thirty-six SD rats were divided into three groups: sham-operated group, model group and electroacupuncture group, with 12 rats in each group. After the intervention, local skin tissues were collected for lipid metabolomics analysis, wound perfusion and ferroptosis-related indexes were detected and finally the effect of electroacupuncture on skin wound repair was comprehensively evaluated by combining wound healing rate and histology. Lipid metabolomics analysis revealed 37 differential metabolites shared by the three groups, mainly phospholipids, lysophospholipids, glycerides, acylcarnitine, sphingolipids and fatty acids, and they could be back-regulated after electroacupuncture. The recovery of blood perfusion and wound healing was faster in the electroacupuncture group than in the model group (p < 0.05). The levels of GPX4, FTH1, SOD and GSH-PX, which are related to ferroptosis, were higher in the electroacupuncture group than in the model group (p < 0.05). The levels of ACSL4 and MDA were lower in the electroacupuncture group than in the model group (p < 0.05). Electroacupuncture may promote skin wound repair by improving lipid metabolism and inhibiting ferroptosis in local tissues.     

Review of pancreatic trauma.

In reviewing the literature on pancreatic trauma (1,984 cases), I found that it resulted from penetrating trauma in 73% and blunt trauma in 27% of cases. Associated injuries were common (average 3.0 per patient). Increased mortality was associated with shotgun wounds, an increasing number of associated injuries, the proximity of the injury to the head of the pancreas, preoperative shock, and massive hemorrhage. High mortality was found for total pancreatectomy, duct reanastomosis, and lack of surgical treatment, with lower mortality for Roux-en-Y anastomoses, suture and drainage, distal pancreatectomy, and duodenal exclusion and diverticulization techniques. Most patients required drainage only. The preoperative diagnosis of pancreatic trauma is difficult, with the diagnosis usually made during surgical repair for associated injuries. Blood studies such as amylase levels, diagnostic peritoneal lavage, and plain radiographs are not reliable. Computed tomographic scanning may be superior, but data are limited.