Barbara E. Hull

Inflammatory Cytokines and Cell Adhesion Molecules in a Rat Model of Decompression Sickness

To characterize early blood and tissue markers predictive of decompression sickness (DCS), this study focused on identifying changes in inflammatory mediators during the 24-h period immediately following compression-decompression of female Sprague-Dawley rats. Early blood and tissue markers predictive of DCS include inflammatory cytokines and cell adhesion molecules (CAMs). Increased levels of inflammatory cytokines, especially tumor necrosis factor-alpha (TNF-alpha), interleukin-6 (IL-6), and interferon-gamma (IFN-gamma), were detected in the circulation 6 h after decompression. Increased levels of only IL-6 were observed at 24 h. Compared with control animals maintained at 1 atmospheres absolute pressure ATA (101 kPascal), significant increases in expression of E-selectin, and L-selectin, as well as intercellular adhesion molecule-1 (ICAM-1), were observed immunohistochemically in the lungs and brains of the rats 6 h after exposure to 2 (203 kPascal), 3 (303 kPascal), or 4 (404 kPascal) ATA, followed by rapid decompression. These levels drop by 24 h. In contrast to the observations in brain, greater increases in expression of E-selectin and L-selectin around vessels and connective tissue were seen at 24 h after decompression in the quadriceps of rats exposed to either 3 or 4 ATA. Significant increases in expression of the A(2A) receptor, which modulates inflammation by downregulating production of these cytokines, were detected only in the quadriceps removed at 24 h after decompression from 4 ATA. This study demonstrated that rapid decompression induces the release of mediators of inflammation and resulting tissue inflammation cascades, as well as a protective anti-inflammatory response.

The effect of m-xylene on cytotoxicity and cellular antioxidant status in rat dermal equivalents.

Exposure of the skin to volatile organic chemicals (VOCs) can lead to irritation, inflammation and cytotoxicity. Since VOCs are used in industrial, commercial and military applications, concern is mounting with respect to VOC safe exposure limits. Although traditional toxicological assessment of VOCs has utilized animal models, the use of alternative in vitro models is becoming more widespread. We have previously developed a sealed exposure system that prevents chemical loss through evaporation and enables calculation of target cell chemical dose. The present study utilized this in vitro exposure method to assess m-xylene-induced cytotoxicity and antioxidant status in dermal equivalents (dermal fibroblasts in a collagen matrix). At the end of a 1- or 4-h exposure, cytotoxicity was measured using the MTT assay and the EC50 values determined were 1481 +/- 88 and 930 +/- 33, respectively. Decreases in cellular thiols and catalase activity were observed, which occurred in a time and dose-dependent manner. Treatment of dermal equivalents with the antioxidants N-acetylcysteine (NAC) and catalase provided some protection against m-xylene-induced cytotoxicity. When compared to m-xylene exposures, treatment with either 1.0 or 5.0 mM NAC led to increases in the EC50 values at 1 and 4 h. Increases in these EC50 values ranged from 1.22- to 1.32-fold at 1 h and 1.27- to 1.54-fold at 4 h. Although treatment with catalase (1000 U/ml) led to a 1.35-fold increase in cell viability at 1 h, no significant differences were observed at either 1 or 4 h when compared to dermal equivalents exposed to m-xylene alone. These results suggest that exposure to m-xylene leads to a time- and dose-dependent decrease in cellular antioxidants and that cellular thiols may provide protection against the cytotoxic properties of m-xylene.

Effects of PCB 126 on Primary Immune Organs and Thymocyte Apoptosis in Chicken Embryos

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) and polychlorinated biphenyl (PCB) 126 produce thymic atrophy and immunosuppression. This study explored the hypothesis that the thymic atrophy produced by developmental exposure to PCB 126 is associated with an increase in apoptotic thymocytes at the end of incubation in chicken embryos. Eggs were injected via the air cell with PCB 126 (0.05, 0.13, 0.32, 0.64, and 0.80 ng/g egg) on d 0 of incubation, and tissues were collected on d 20. Controls included noninjected and vehicle-injected (sunflower oil) eggs. Thymocytes were cultured for 6 h and analyzed by flow cytometry for decreased DNA content (propidium iodide staining) and cell size (forward scatter), which indicate apoptosis. PCB 126 induced dose-dependent mortality with an LD50 of 1.01 ng/g and lowest-observed-effect concentration (LOEC) of 0.32 ng/g. Teratogenic effects commonly associated with TCDD and planar PCBs, including cranial and foot deformities and subcutaneous edema, tended to increase with dose of PCB 126. PCB 126 reduced thymus mass by approximately 20% at 0.64 and 0.8 ng/g, the number of viable thymocytes by approximately 20–24% at and above 0.13 ng/g, and the number of bursal lymphoid cells by 57% at 0.64 ng/g. The percentage of apoptotic thymocytes increased with dose, reaching levels 2 times greater than controls at 0.8 ng/g. Electrophoresis of low-molecular-weight DNA from thymocytes of all doses demonstrated fragments in multiples of 180 bp. This DNA laddering is a hallmark of apoptosis. At all doses, thymocytes exhibited caspase-3 activation, another indicator of apoptosis. The results of this experiment supported the hypothesis that the thymic atrophy produced by developmental exposure to PCB 126 in chicken embryos is associated with an increase in apoptotic thymocytes on embryonic d 20. This project was supported by the U.S. Environmental Protection Agency (GR825216-01-0) and the Biomedical Sciences PhD Program at Wright State University. E. Lavoie, R. Garrett, A. Handy, and E. Reaves helped with laboratory work. Drs. Nancy Bigley, Thomas Brown, G. Allen Burton, and Robert Grubbs provided technical assistance and reviewed earlier drafts of this article.

Murine response to DNA encoding herpes simplex virus type-1 glycoprotein D targeted to the liver

Plasmid DNA encoding herpes simplex virus type-1 glycoprotein D (gD-1) was complexed with asialoorosomucoid conjugated to poly-L-lysine. Following its intravenous injection into BALB/c mice, this complex was targeted to the liver. Liver cells expressing gD-1 were detected immunohistochemically through day 6 post-immunization, while gD-1 DNA was detectable through 14 days post-immunization. Decline of gD-1 expression and detectable gD-1 DNA in the liver correlated with influx of T cells, predominantly CD4(+). The ASOR-poly-L-lysine DNA carrier system promotes hepatic expression of gD-1 and may be useful in vaccination against herpes simplex virus type-1.

Targeted Delivery of DNA Encoding Herpes Simplex Virus Type-1 Glycoprotein D Enhances the Cellular Response to Primary Viral Challenge

Abstract Intravenous injection of plasmid DNA encoding herpes simplex virus type-1 glycoprotein D (gD-1) complexed with asialoorosomucoid-poly- l -lysine (gD-ASOR) targets foreign DNA to the liver, leading to hepatic expression of gD-1. BALB/c mice were given two intravenous injections of gD-ASOR, pBK-ASOR (plasmid lacking the gD-1 gene but complexed with ASOR), or PBS. The skin was inoculated with 1 × 10 4 PFU of HSV-1 or sham-inoculated, and analyzed for infectious virus and cellular infiltration 1, 3, and 5 days after inoculation. Prior immunization with gD-ASOR led to significantly lower ( P < 0.05) viral titers in the skin 5 days after inoculation compared with controls. Infiltration of the skin at the site of inoculation by polymorphonuclear neutrophils (PMNs), T cells, B cells, dendritic cells, and macrophages was monitored immunohistochemically. Significantly higher numbers ( P < 0.05) of CD4 + and CD8 + T cells, dendritic cells, and macrophages responded to HSV-1 challenge in mice immunized with gD-ASOR than in mice immunized with pBK-ASOR or PBS. The response by PMNs and B cells was indistinguishable among the treatment groups. These results suggest that BALB/c mice sensitized to gD-1 following gD-ASOR immunization develop an enhanced T-cell response to primary HSV-1 infection.

Characterization of ultraviolet radiation-induced damage to keratinocytes in a skin equivalent in vitro

The human skin equivalent (HSE) provides a convenient model for studying the dermatological effects of exposure to ultraviolet (UV) radiation. HSEs, constructed by overlaying a collagen-fibroblast matrix with epidermal cells, were maintained submerged for 1 week after the addition of epidermal cells and then raised to the air-liquid interface for an additional 3 weeks. HSEs were exposed to sublethal doses of UV radiation ranging from 0 to 500 J/m2, incubated up to 48 h in medium containing 3H-thymidine and fixed for ultrastructural and autoradiographic analysis. Exposure to radiation doses greater than 50 J/m2 led to vacuolation of the cornified envelopes and enlargement of intercellular spaces. These doses also led to the formation of dense cytoplasmic bodies, and separation and vesiculation of the nuclear envelope in the basal cells. DNA synthesis in the basal cells was analyzed autoradiographically. Maximal numbers of labeled basal cells were observed 24 h after exposure to UV radiation at 50 J/m2. Although the proportions of labeled cells varied among different epidermal donors, the maximal responses and time-course of 3H-thymidine incorporation remained consistent, supporting the usefulness of the HSE in studying the effects of UV irradiation on human skin.

The efficacy of a DNA vaccine encoding herpes simplex virus type 1 (HSV-1) glycoprotein D in decreasing ocular disease severity following corneal HSV-1 challenge

Summary. Antiviral effects of a DNA vaccine against herpes simplex virus 1 (HSV-1) glycoprotein D (gD) were evaluated in eight week-old female BALB/c mice. The nuclease-insensitive construct (gD-ASOR) consisted of an HSV-1 gD encoding plasmid coupled to asialo orosomucoid (ASOR), targeting it to cells bearing ASOR receptors. Mice were immunized on day 0 and 7 with 10 μg doses of gD-ASOR or control substances. Fourteen days later, mice were infected by the corneal route with 105 pfu or 106 pfu HSV-1, strain 17syn+. Immunized mice showed a significant decrease in ocular disease severity over a 21-day observation period following infection compared to sham-immunized mice. Acute replication kinetic assays demonstrated a 100-fold decrease in viral titers on day 6 in trigeminal ganglia from immunized BALB/c mice compared to sham-immunized mice. Immunized mice showed a significant increase in numbers of CD4+T cells infiltrating the trigeminal ganglia at day 6 post infection compared to sham-immunized mice. Significant differences were not seen in latent viral reservoir between immunized and unimmunized mouse groups. Immunization with gD-ASOR decreased the severity of acute ocular HSV-1 infection, induced a CD4+ T cell response, decreased the viral load in the trigeminal ganglia, but did not diminish viral latency.

Local complex permittivity measurements of porcine skin tissue in the frequency range from 1 GHz to 15 GHz by evanescent microscopy

The near-field evanescent microwave microscope is based on a coaxial transmission line resonator with a silver plated tungsten tip protruding through an end-wall aperture. The sensor is used to measure the local dielectric properties of porcine skin in the frequency range from 1 GHz to 15 GHz. The dielectric property of the skin within the near field of the tip frustrates the electric field and measurably changes the transmission lines resonant frequency and quality factor (Q). The shift of the resonators frequency and Q is measured as a function of tip-sample separation, and a quantitative relationship between the real and imaginary parts of the local dielectric constant using the method of images is established. The associated changes in quality factor image scans of subsurface tissue structure and dielectric properties of skin surface lesions are presented.

Differential response of basal keratinocytes in a human skin equivalent to ultraviolet irradiation.

Abstract The human skin equivalent (HSE) provides a convenient model system for studying the cellular responses of basal keratinocytes to UV irradiation. HSEs, constructed by overlaying a collagen-fibroblast matrix with epidermal cells, were raised to an air-liquid interface to promote epidermal differentiation. HSEs were exposed to ultraviolet radiation from a 500-W Hot Quartz Hanovia therapeutic sunlamp, at a total dose of 100 J/m 2 . The HSEs were then frozen every 4 h over a 48-h period and cryosectioned. For each time period, the expression of β 1 integrin and cyclin E, p53, or Bcl-2 were quantified using dual immunolocalization. Basal cells expressing β 1 integrin were divided into two subpopulations, denoted β 1 high or β 1 low . The proportion of β 1 high keratinocytes expressing Bcl-2 and cyclin E increased significantly 4 and 8 h, respectively, after exposure to UV; during the subsequent 16 h, this basal cell subpopulation expressed p53. By contrast, significant numbers of β 1 low basal keratinocytes expressed p53, but not Bcl-2. These results suggest that β 1 high and β 1 low populations of basal epidermal cells in HSEs respond differently to UV irradiation.

Supercritical Carbon Dioxide Sterilization Minimally Affects Human Allograft Skin Morphology and Biomechanics

Skin-based products are currently used to treat numerous acute and chronic injuries. Allograft skin typically used for burn treatment is recovered aseptically and either cryopreserved or provided fresh shortly after procurement in order to maintain viability for engraftment. Such skin is also further processed in a variety of ways, including decellularization and lyophilization, to create biologic dressings and skin substitutes. Although allograft skin is vigorously screened and disinfected to prevent pathogen transmission it is seldom terminally sterilized, which may be of concern when it is used for patients who are immunocompromised. Thus, the overall goal of this work is to develop a sterile, skin-based biomaterial for potential use as a matrix for tissue regeneration.Copyright