Lactate elicits vascular endothelial growth factor from macrophages: a possible alternative to hypoxia.

Macrophages respond to various stimuli to produce angiogenic factors but few mechanistic details are known. We examined the effects of hypoxia, lactate and nicotinamide on the expression of vascular endothelial growth factor by cultured macrophages. These agents were chosen because they down-regulate polyadenosine diphosphoribose levels. Following exposure, conditioned media were analyzed for vascular endothelial growth factor protein. Nicotinamide adenine dinucleotide, polyadenosine diphosphoribose, and vascular endothelial growth factor mRNA were measured in the cellular fraction. Angiogenic capacity of the conditioned media was tested in rabbit corneas and Matrigel implants. All three agents, hypoxia, lactate and nicotinamide, elicited significantly increased levels of vascular endothelial growth factor mRNA and vascular endothelial growth factor in the conditioned media, and these levels were paralleled by their angiogenic activity. Polyadenosine diphosphoribose in the cellular fraction was correspondingly depressed. Anti-vascular endothelial growth factor antibody inhibited most of the angiogenic response whereas anti-basic fibroblast growth factor antibody had little effect. We propose that redox changes associated with the alteration of cellular nicotinamide adenine dinucleotide and polyadenosine diphosphoribose are involved in lactate-mediated VEGF expression.

Effects of steroids and retinoids on wound healing.

HYPOTHESIS: Anti-inflammatory corticosteroids significantly impair wound healing. Retinoids partially, but significantly, reverse this effect. Little is known about the mechanism of steroid retardation or retinoid reversal. We hypothesized that corticosteroids lower transforming growth factor-beta (TGF-beta) and insulin-like growth factor-I (IGF-I) levels and tissue deposition in wounds and that retinoids stimulate corticosteroid-impaired TGF-beta and IGF-I release and collagen production. DESIGN: Randomized controlled trial. SETTING: Wound healing research laboratory. PARTICIPANTS: Animal study. INTERVENTIONS: Four wire mesh wound cylinders were implanted subcutaneously into the backs of 72 male Sprague-Dawley rats. Wound healing was impaired by a single subcutaneous injection of 6 mg of methylprednisolone acetate (Depo-Medrol). Two preparations of retinoids were used in separate experiments: all-trans-retinoic acid and 9-cis-retinoic acid that were fed orally. MAIN OUTCOME MEASURES: Hydroxyproline content was measured in the healing tissue and TGF-beta and IGF-I levels were analyzed in the wound fluid. RESULTS: Methylprednisolone treatment significantly decreased TGF-beta and IGF-I levels in the wound fluid and hydroxyproline content in the tissue (P<.05). Oral all-trans- and 9-cis-retinoic acid partially reversed the TGF-beta and IGF-I decrease and significantly increased hydroxyproline content toward normal levels (P<.05). Oral all-trans-retinoic acid enhanced collagen deposition, TGF-beta and IGF-I levels over normal chow fed control animals (P<.05). CONCLUSIONS: Steroids and retinoids have antagonistic effects on growth factors and collagen deposition in wound healing. These effects can be relevant for treatment options in a clinical setting.

Perioperative collagen deposition in elderly and young men and women.

HYPOTHESIS: Women deposit more collagen after major abdominal surgery than men. DESIGN: A post hoc analysis of data obtained from 2 prospective, randomized, double-blind clinical trials. SETTING: University hospital general surgical service. PATIENTS: One hundred sixteen patients undergoing colon resection. MAIN OUTCOME MEASURES: Protein and hydroxyproline (collagen) deposition during the first 7 postoperative days in expanded polytetrafluoroethylene implants positioned subcutaneously. RESULTS: On univariate analysis, men and women deposited comparable amounts of collagen (257 +/- 120 vs 281 +/- 117 ng/mm, respectively). When potential confounding factors were entered into a generalized mixed-effects model, only the interaction between age and sex was a significant factor (P = .047). Collagen deposition decreased with age in men, being 317 +/- 133 ng/mm in men younger than 45 years, but only 238 +/- 113 ng/mm in those older than 45 years (P = .03). In contrast, collagen deposition was virtually identical in women younger than 45 years (280 +/- 133 ng/mm) and in those older than 45 years (281 +/- 110 ng/mm). Only 3 of these women were receiving hormone replacement therapy. CONCLUSIONS: Collagen deposition after surgery decreased significantly with age in men, while remaining unchanged in women. Younger men and women deposited similar amounts of collagen. Therefore, older men made less collagen after surgery than older women, perhaps explaining the consistent observation that wound dehiscence is twice as common in men than in women. Our results differ from previous studies conducted in healthy, nonsurgical volunteers, which showed that (1) young women made significantly more collagen than young men and (2) collagen deposition was reduced in postmenopausal women, but deposition returned to premenopausal values with hormone replacement therapy. Differences between our results and those reported previously likely stem from the populations studied. In particular, multiple perioperative factors decrease collagen deposition, which apparently obscures the differences observed previously in healthy, unstressed volunteers.

Stromelysin-1-deficient fibroblasts display impaired contraction in vitro.

Targeted disruption of the stromelysin-1 gene in mice causes a delay in excisional wound healing due to a failure in wound contraction. Therefore, we postulated that stromelysin-1 activity is responsible for initiating contraction. To test this hypothesis, we compared the contractile capacity of fibroblasts from stromelysin-1 knockout mice (strom-1 KO) with that of normal fibroblasts using a collagen gel contraction model. Fibroblast cultures were established from explants of skin and lung parenchyma from strom-1 KO and wild-type mice, then transferred to the surface of collagen gels. The extent of contraction was determined by measuring greatest gel diameter. Results demonstrated that (1) all fibroblasts contracted collagen gels in a uniform concentric fashion, (2) skin fibroblasts from both sets of mice exhibited greater gel contraction than did lung fibroblasts, and (3) strom-1 KO fibroblasts demonstrated significantly less contraction (21-23%) than wild-type fibroblasts. These data support the hypothesis that absence of stromelysin-1 results in defective fibroblast contraction that may contribute to delayed wound healing.

Wound hypoxia and acidosis limit neutrophil bacterial killing mechanisms.

BACKGROUND: "Respiratory burst" activity, ie, O2- production, is dependent on PO2, temperature, pH, and glucose concentrations within the physiologic range. OBJECTIVES: To determine whether environmental conditions characteristic of wounds may limit human neutrophil respiratory burst metabolism and to clarify the degree to which bactericidal oxidant production depends on local PO2. METHODS: Human blood and wound neutrophils were stimulated with phorbol myristate acetate. Oxygen consumption and superoxide production were measured over a range of 30 to 300 mm Hg PO2, 0 to 40 mmol/L glucose, pH 6.0 to 8.0, and 30 degrees C to 37 degrees C. The apparent Michaelis Menten constant for oxidant production with respect to PO2 was calculated. RESULTS: Oxygen consumption and O2- production were dependent on PO2 throughout the range tested. Half-maximal oxidant production occurred in the range of 45 to 80 mm Hg PO2 and maximal at PO2 higher than 300 mm Hg. These data agree with the highest previous estimates. Oxidant generation was also dependent on pH, temperature, and glucose concentration, but to a lesser extent. CONCLUSIONS: Leukocyte bacterial killing capacity as measured by oxygen consumption and superoxide production are substantially impaired at the low oxygen tensions often found in wounds. Changes in pH, temperature, and glucose concentration have lesser but nonetheless significant consequences. The data provide a plausible mechanism for the vulnerability of some wounds to infection and for the previous finding that increasing oxygen tension at wound sites enhances bactericidal function. Thus, the data serve as a basis for future studies on prevention of wound infection.

Effect of growth hormone replacement on wound healing in healthy older men.

The secretion of growth hormone, an important anabolic agent, declines with aging. We hypothesize that growth hormone levels (measured as insulin-like growth factor-1) correlate with postoperative tissue repair in otherwise healthy, elderly persons. The goal was to determine whether growth hormone supplementation can improve wound healing in this circumstance. We conducted a randomized controlled double-blind trial of 6 months of growth hormone replacement or placebo in 28 healthy older men (>69 years of age) with low baseline plasma insulin-like growth factor-1. Growth hormone doses were adjusted to elevate insulin-like growth factor-1 to levels expected in younger adults. Wound healing was tested by implanting 10 cm expanded polytetrafluoroethylene porous tubes for 10 days, then measuring the content of collagen (as hydroxyproline), DNA, and total protein. Hydroxyproline content was 15% greater in the wounds of the growth hormone group (n = 13) compared with the placebo group (n = 15), (4.52 +/- 0.94 versus 3.92 +/- 0.78 microg/cm; p = 0.04). Therefore, healthy older men who took growth hormone had enhanced reparative collagen deposition during the wound healing process. This action may be clinically useful after selected surgery or trauma in the elderly.

Lactate stimulation of macrophage-derived angiogenic activity is associated with inhibition of Poly(ADP-ribose) synthesis.

Injury and inflammation lead to hypoxia and elevated lactate in wounds. This redox environment establishes cells in a reparative phenotype and leads macrophages to release angiogenic substances by unclear mechanisms. We investigated compounds known to modulate polyadenosine diphophoribose (pADP-R) levels in their effect on macrophage-derived angiogenic activity. Macrophages cultured from rabbit bone marrow were exposed to lactate, nicotinamide, and/or beta-nicotinamide adenine dinucleotide (NAD+). Supernatants were assayed for angiogenesis, and macrophages were analyzed for NAD+ content, poly(ADP-ribose) synthetase activity, and total (ADP-ribose)n synthesis. Lactate-, nicotinamide-, and lactate and nicotinamide-treated macrophages elicited significantly increased angiogenic activity compared with control or NAD+-treated cells. Lactate treatment decreased NAD+ content by 42 +/- 4% and (ADP-ribose)n synthesis by 37 +/- 5%. Nicotinamide reduced poly(ADP-ribose) synthetase activity and poly(ADP-ribose) synthesis. Thus, macrophage-derived angiogenic activity may be mediated by the redox environment involving NAD+ metabolites.

An experimental model to determine the effect of irradiated tissue on neutrophil function.

Complications of irradiated tissue include infections and impaired healing. Although fibrosis and hypovascularity contribute, a cellular mechanism has not been identified. This study examines the effect of radiation (10 to 30 Gy) on neutrophil function in a rabbit wound cylinder model. At 3 to 12 weeks after radiation, subcutaneous wound cylinders were implanted in both irradiated and control fields in 19 rabbits. Wound neutrophils were subsequently assayed for phagocytosis (3H-labeled Staphylococcus aureus assay), superoxide production (cytochrome c reduction assay), and surface Mac-1 expression (flow cytometric assay using MHM 23 monoclonal antibody). Phagocytosis of 3H-labeled S. aureus was significantly lower in neutrophils from irradiated fields compared with controls at 6 and 12 weeks after radiation (6.5 versus 18.9 bacteria per neutrophil at 12 weeks; p = 0.027). Stimulated neutrophils from irradiated tissue could not increase superoxide production or Mac-1 expression as much as controls, with differences increasing as postirradiation time increased. The diminished phagocytosis, superoxide production, and Mac-1 expression provide a cellular mechanism that may account for susceptibility to infection and poor healing in irradiated tissues.

Examination of expanded polytetrafluoroethylene wound healing models.

The object of this animal study was to examine and further develop the expanded polytetrafluoroethylene wound healing model. The goal was to increase its potential for assessing wound healing by increasing yield, reducing variability, establishing the elements of a standard technique, and further testing its ability to detect variations of healing which have clinical significance. Expanded polytetrafluoroethylene implants of various dimensions and fabrications and several implantation and sterilization techniques were compared in rats. Hydroxyproline, DNA, and protein deposition into the expanded polytetrafluoroethylene implants as parameters for wound healing were assessed. Additionally, a 4 cm skin incision for tensile strength assessment was created. Wound healing was assessed under normal and corticosteroid-impaired healing conditions. The highest yield of collagen was found in the stiffer fabrication of expanded polytetrafluoroethylene with the larger pore size and after the more traumatic implantation technique of incisional placement. Variability was unaffected by fabrication, implantation technique, indexing by various geometric dimensions of the implant, sterilization, or sampling techniques. Variability was the same in the individual animals as in groups of animals. The expanded polytetrafluoroethylene method also detects the influence of antiinflammatory corticosteroids and reflects the tensile strength of incisional wounds made in other sites in the same animal.

Induction of neutrophil Mac-1 integrin expression and superoxide production by the medicinal plant extract gossypol.

Gossypol is present in antiinflammatory poultices made from the medicinal tree Thespesia populnea. Isolated human neutrophils exposed to 3-20 microM gossypol for 15-90 min were assayed in vitro for superoxide production and surface expression of Mac-1 (CD11b/CD18). Gossypol increased superoxide production in a time- and concentration-dependent fashion consistent with a moderate, delayed respiratory burst. Surface Mac-1 expression was increased within 15 min by 3-5 microM gossypol, resulting in a 14-fold increase over controls and a threefold greater increase over that produced by PMA. Staurosporine failed to block gossypol induction of superoxide and Mac-1, while EDTA inhibited induction of Mac-1 only, implicating a calcium-dependent mechanism. Gossypol increased intracellular calcium to peak levels, but in a delayed fashion as compared to FMLP. These findings demonstrate that gossypol is a highly potent stimulant of Mac-1 expression and suggest at least two protein kinase C-independent pathways of neutrophil activation. The resultant exhaustion of neutrophils may account for the antiinflammatory properties of plants containing gossypol.

Pulsed microamperage stimulation: a controlled study of healing of surgically induced wounds in Yucatan pigs.

BACKGROUND AND PURPOSE: Microamperage direct current and microamperage electromagnetic stimulation are used to accelerate healing in bone. Although many clinicians are using microamperage stimulation to relieve pain and facilitate wound healing, there is significant question regarding whether this low-intensity direct current significantly accelerates soft tissue wound repair. The purpose of this study was to determine whether low-voltage pulsed microamperage current (100 microA, 60 V, 0.1 Hz) enhances the healing of superficial, full-thickness, or incisional wounds created to simulate acute abrasions, ulcers, and lacerations. SUBJECTS: Ten adult Yucatan mini pigs served as the subjects for this study. METHODS: Variables associated with healing were measured in 60 matched pairs of surgically induced partial-thickness, full-thickness, and incisional wounds after either sham or anodal (positive-polarity) stimulation with pulsed microamperage current (100 microA) was administered for 1 hour per day for 5 days. Sterile, disposable electrodes (2 x 4 cm) were placed over each wound, which was kept wrapped and protected throughout the study. RESULTS: At 7 days postinjury, all wounds were healing well with no signs of infection. There were no differences in tensile strength, collagen density, maturity, or deposition (hydroxyproline), wound size, or visual appearance between the sham treatment and treatment lesions. No changes in local subcutaneous oxygen or temperature were found in the swine during or after microamperage stimulation. CONCLUSION AND DISCUSSION: This study did not provide any evidence to support the use of microamperage stimulation to accelerate wound healing. No negative effects, however, were found. Further research is needed to determine whether there is a critical interaction between the size of the electrode relative to the wound, the density of the current, the duration of the treatment, the polarity of the treatment electrode, and the acuity or chronicity of wounding and the effectiveness of microcurrent stimulation for wound healing.

Mild hypothermia during halothane-induced anesthesia decreases resistance to Staphylococcus aureus dermal infection in guinea pigs.

Because various immune functions are impaired at temperatures only 1 degrees to 3 degrees C less than normal, we tested the hypothesis that mild hypothermia during anesthesia impairs resistance to dermal infections. Guinea pigs were anesthetized for 6 hours with 1% inspired halothane. Their core temperatures were maintained at either 39 degrees C (normal for guinea pigs, n = 12) or 36 degrees C (n = 12). Two hours after induction of anesthesia, three doses each of Staphylococcus aureus (10(8), 10(7), and 10(6) organisms) were injected intradermally at nine sites on each animal's back. Core temperatures were not controlled after recovery from the anesthetic, and animals in each group were maintained in the same environment. Four days after anesthesia, each injection site was excised to obtain a count of viable bacteria. Subcutaneous oxygen partial pressure values, averaged over time, were 53 +/- 3 mm Hg (mean +/- SEM) in the hypothermic group and 62 +/- 4 mm Hg in the normothermic group (p = 0.06). Capillary perfusion, as assessed by laser Doppler flowmetry, was comparable in the two groups. One day after injection of 10(8) bacteria, the area of induration was 89 +/- 11 mm(2) in the hypothermic group but only 61 +/- 6 mm(2) in the normothermic group (p < 0.05). On postanesthetic day 4, the area of induration was 72 +/- 6 and 59 +/- 6 mm(2) in the hypothermic and normothermic groups, respectively (p > 0.05). After inoculation with 10(8) bacteria, the fraction recovered was 1.0 +/- 0.2 in the hypothermic groups and 0.6 +/- 0.2 in the normothermic group (p < 0.05). After inoculation with 10(7) and 10(6) bacteria, the fraction recovered was less than 0.2, and no difference was found between the hypothermic and normothermic animals. Thus mild hypothermia during halothane-induced anesthesia slightly impairs resistance to dermal infection.

Low-dose ultrasound effects on wound healing: a controlled study with Yucatan pigs.

This study reports on the effect of low-dose ultrasound in accelerating wound healing in matched pairs of surgically induced incisions and full-thickness and partial-thickness lesions in 11 Yucatan mini-pigs after 7 days of healing and 5 days of sonation. Tensile strength, collagen deposition (hydroxyproline), reduction in wound size (full-thickness lesion), and mast-cell degranulation were significantly greater in the sonated lesions than in the sham-treated controls (p = 0.01). Sonation enhanced strength by 24% and collagen deposition by 29%, when compared with controls. There were no significant differences in the quality of healing as measured by an ordinal scale. The results suggest that within the first week of healing, low-dose ultrasound facilitates wound healing. More research is needed to confirm the most effective dose, frequency, and treatment duration and intervention time for maximum healing.

Tissue oxygenation, anemia, and perfusion in relation to wound healing in surgical patients.

Oxygen tension and collagen deposition were measured in standardized, subcutaneous wounds in 33 postoperative surgical patients. Pertinent clinical and wound parameters were analyzed by Pearson's correlation test and sequential linear regression analysis. Collagen deposition was directly and significantly proportional to wound oxygen tension and measures of perfusion. There were no significant correlations with hematocrit, estimated blood loss, length of operation, smoking, age, weight, sex, or urine output. This study in humans confirms animal experiments showing that collagen deposition and tensile strength in wounds are limited by perfusion and tissue oxygen tension. It appears unnecessary to maintain hemoglobin at normal levels to support repair, provided that peripheral perfusion can be maintained at a high level in compensation for anemia. These circumstances reflect the fact that although oxygen is essential to many aspects of healing, and must be delivered at adequate partial pressures, reparative tissue consumes relatively little of it.

Ontogeny of fetal sheep polymorphonuclear leukocyte phagocytosis.

Premature infants and neonates are vulnerable to bacterial sepsis. This susceptibility may be due to the relative immaturity of their immune systems. To determine if neonates and, in particular, premature infants have decreased polymorphonuclear leukocyte (PMN) phagocytosis, we tested PMN phagocytosis of Staphylococcus aureus as a function of gestational age in the fetal lamb model. Because phagocytosis is made more efficient by the presence of opsonins in plasma, fetal and postnatal PMN phagocytosis were also measured after exposure to fetal and adult plasma. PMNs were isolated from fetal lambs at 104, 114, 124, and 141 days' gestation (term gestation for the fetal lamb is 145 days), as well as from 10-day-old neonatal sheep and adult sheep. Labeled S aureus were opsonized by incubation in either fetal or adult plasma, or left unopsonized for baseline values. Phagocytosis was measured as a percent of adult PMN phagocytosis after adult plasma opsonization. It was found that fetal PMN function is limited by two factors during the early third trimester: a primary defect in the ability of the PMN to phagocytose S aureus despite adequate opsonization, and the diminished ability of autologous fetal plasma to opsonize bacteria. The defect in PMN phagocytosis disappears late in the third trimester, but the inability of the fetal plasma to opsonize effectively continues until after birth.

An adverse wound environment activates leukocytes prematurely.

This study was designed to evaluate the effect of different wound environments on wound activation. Our wound model provided two distinct environments, a well vascularized musculocutaneous flap and a poorly perfused random-pattern flap, in miniature swine. Leukocytes were isolated and analyzed by the following three variables: surface and total cellular Mac-1 (CD11b/CD18), superoxide anion expression, and lactoferrin release. Leukocytes from the unfavorable, poorly oxygenated wound environment activate on entry into the wound. Leukocytes from the musculocutaneous flap wound are better able to respond to a maximal challenge with the phorbol ester, phorbol myristate acetate. These findings may account for the enhanced bactericidal actions of the musculocutaneous flap compared with the random-pattern flap observed clinically.

Selective effects of tumor necrosis factor-alpha on wound healing in rats.

Many growth factors are believed to act simultaneously in wounds. Tumor necrosis factor-alpha (TNF-alpha) is a cytokine released by activated macrophages. In various concentrations it has inflammatory, cytolytic, mitogenic, antitumor, and possibly angiogenic or antiangiogenic effects; therefore it is likely to affect wound healing. With stainless steel wire mesh wound cylinders implanted in rats, we tested topical TNF-alpha in wounds, alone and in combination with platelet-derived growth factor (PDGF) and transforming growth factor-beta (TGF-beta). The cylinders were injected daily for a total of 12 days, after which we measured the accumulation of protein, DNA, and hydroxyproline in each cylinder. TNF-alpha had little effect by itself; it inhibited the growth-promoting effects of TGF-beta, but it did not influence the effects of PDGF. These results agree with the in vitro studies showing synergism of TNF-alpha and PDGF and antagonism between TGF-beta and TNF-alpha. They also suggest that TGF-beta may have a negligible role in normal healing and emphasize that interaction of growth factors must be understood before appropriate clinical use can be planned.

Effect of lactate, pyruvate, and pH on secretion of angiogenesis and mitogenesis factors by macrophages.

Macrophages secrete substances that stimulate angiogenesis and mitogenesis at wound sites. To test whether metabolic characteristics of the wound such as high lactate concentration and low pH may regulate the expression of these substances, macrophages were cultured in lactalbumin hydrolysate and then in increasing concentrations of lactate, pyruvate, and hydrogen ions, and cell-free supernatants were collected. Cultures incubated in concentrations of lactate approximating those observed in wounds secreted an angiogenesis factor or factors, but cultures incubated in equivalent concentrations of pyruvate or at pH 6.2 did not. These observations seem to be specific to macrophages because capillary endothelial cells and fibroblasts failed to secrete an angiogenesis factor when cultured under hypoxic conditions or in high concentrations of lactate. None of these conditions changed the expression of macrophage mitogens.

Comparison of fetal, newborn, and adult wound healing by histologic, enzyme-histochemical, and hydroxyproline determinations.

We compared simultaneous healing processes in fetal, newborn, and maternal rabbits using a miniaturized wound cylinder of expanded Gore-Tex tubing. The tubing was placed subcutaneously in fetal and maternal rabbits on day 23 of pregnancy (term = 31 to 32 days), and in 7-day-old newborn rabbits. At specific intervals, the tubing was removed and analyzed for hydroxyproline accumulation, histology, and cellular enzyme-histochemistry. Granulation tissue ingrowth and accumulation of hydroxyproline were each inversely related to age (fetus greater than newborn greater than maternal). The fetus showed an impressive infiltration of macrophages by day 4, fibroblasts by day 7, and a conspicuous lack of neutrophils in all specimens. Newborns and mothers had few cells until day 7, when a mixture of macrophages, neutrophils, and some fibroblasts appeared. We conclude that the fetus heals wounds rapidly by both mesenchymal cell proliferation and collagen deposition, and that these processes are more rapid in fetuses than in newborn or adult animals despite relative fetal hypoxemia.