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1. Pro-inflammatory agents released by pathogens, dying host cells, and neutrophils act synergistically to destroy host tissues: a working hypothesis

Author

Ginsburg I, Korem M, Koren E, and Varani J

Subjects
Synergism, tissue damage, bacterial toxin, bacteriolysis, cationic proteins, sepsis, Pathology, RB1-214, Therapeutics. Pharmacology, RM1-950
Abstract

Isaac Ginsburg,1 Maya Korem,2 Erez Koren,3 James Varani4 1Institute of Dental Sciences, Faculty of Dental Medicine, The Hebrew University, Jerusalem, Israel; 2Department of Clinical Microbiology and Infectious Diseases, Hadassah-Hebrew University Medical Center, Jerusalem, Israel; 3Research and Development Department, Clexio Biosciences Ltd, Petah Tikva, Israel; 4Department of Pathology, The University of Michigan Medical School, Ann Arbor, MI, USA Abstract: We postulate that the extensive cell and tissue damage inflicted by many infectious, inflammatory and post-inflammatory episodes is an enled result of a synergism among the invading microbial agents, host neutrophils and dead and dying cells in the nidus. Microbial toxins and other metabolites along with the plethora of pro-inflammatory agents released from activated neutrophils massively recruited to the infectious sites and high levels of cationic histones, other cationic peptides, proteinases and Th1 cytokines released from activated polymorphonuclear neutrophils (PMNs) and from necrotized tissues may act in concert (synergism) to bring about cell killing and tissue destruction. Multiple, diverse interactions among the many potential pro-inflammatory moieties have been described in these complex lesions. Such infections are often seen in the skin and aerodigestive tract where the tissue is exposed to the environment, but can occur in any tissue. Commonly, the tissue-destructive infections are caused by group A streptococci, pneumococci, Staphylococcus aureus, meningococci, Escherichia coli and Shigella, although many other microbial species are seen on occasion. All these microbial agents are characterized by their ability to recruit large numbers of PMNs. Given the complex nature of the disease process, it is proposed that, to treat these multifactorial disorders, a “cocktail” of anti-inflammatory agents combined with non-bacteriolytic antibiotics and measures to counteract the critical toxic role of cationic moieties might prove more effective than a strategy based on attacking the bacteria alone. Keywords: synergism, tissue damage, bacterial toxin, bacteriolysis, cationic proteins, sepsis

Published
2019

7. Chemotaxis

Author

Varani, J., Honn, Kenneth V., editor, Marnett, Lawrence J., editor, and Lands, William E. M., editor

Published
1985
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18. Characteristics of nonmalignant and malignant human prostate in organ culture

Author

Varani, J., Michael K Dame, Wojno, K., Schuger, L., and Johnson, K. J.

Subjects
Male, Prostatectomy, Epidermal Growth Factor, Tissue Extracts, Prostate, Prostatic Neoplasms, Dihydrotestosterone, Epithelial Cells, Ki-67 Antigen, Organ Culture Techniques, Pituitary Gland, Humans, Insulin, Cell Division
Abstract

Prostate tissue was obtained from 52 radical prostatectomies immediately upon surgery. From each specimen, a small piece of tissue was fixed in 10% buffered formalin and used for histology, cytokeratin staining, staining with the antibodies to the proliferation-associated antigen (Ki-67), and histochemical evaluation of the epithelial-stromal basement membrane. A second piece was used for the isolation of epithelial cells and stromal cells in monolayer culture. The remainder of each specimen was cut into cubes (approximately 1 mm on a side) and incubated in organ culture for up to 20 days. At the end of the incubation period, tissue was fixed in 10% buffered formalin and examined as described above with zero-time tissue. These studies showed that normal epithelial and stromal elements survived in organ culture in the presence of a serum-free medium containing a mixture of growth factors (epidermal growth factor, insulin, pituitary extract, and dihydrotestosterone). In many of the tissues examined at 4 days, individual glands resembled those seen immediately after surgery, with a single layer of basal epithelial cells and a layer of secretory cells above. By Day 8, the secretory epithelium was lost in many places and basal cells proliferated to fill in the lumens of the glands. All of the nonmalignant glands were reactive with the anti-cytokeratin antibody (K903), and there was a large increase in the number of cells staining for Ki-67 as compared with zero-time tissue. Staining with the Periodic Acid Schiff (PAS) and PAS-methenamine silver (PASME) reagents revealed an intact basement membrane around virtually all of the epithelial structures. The basement membrane appeared to be thickened in some areas. In places where a gland was cut during the processing of the tissue, epithelial cells migrated out of the gland and covered the cut surface of the tissue piece. There was no detectable basement membrane separating the epithelium from the stroma at these sites. Whereas nonmalignant epithelial cells were preserved in the growth factor- and dihydrotestosterone-supplemented culture medium, most of the malignant cells rapidly lysed under the same conditions. However, when phorbol myristate acetate was included in the culture medium, many of the tumor cells remained viable. This was seen with the more well-differentiated tumors as well as with tumors that were highly anaplastic. All of the tumor cells were nonreactive with anti-cytokeratin antibody, and only a few cells stained for Ki-67. The basement membrane surrounding malignant cells was thin and, in places, appeared to be discontinuous. Where malignant glands were cut in the processing of the tissue, cells did not migrate out over the cut surface. In summary, this study identifies culture conditions for the successful maintenance of human prostate tissue for several days in organ culture. Histological/histochemical features that distinguish nonmalignant and malignant tissue are present in this model.

Published
1999

19. Preservation of human skin structure and function in organ culture

Author

Varani, J.

Subjects
6 - Ciencias aplicadas::61 - Medicina::616 - Patología. Medicina clínica. Oncología [CDU], Fibroblast, Keratinocyte
Abstract

Human keratinocytes can be maintained in monolayer culture under serum-free conditions for an extended period of time. Under low ca2+ conditions (e.g., 0.05-0.15 mM), an undifferentiated state is maintained and the cells proliferate optimally. When the ca2+ concentration is raised to approximately 1.0 mM, differentiation occurs and growth slows. Human dermal fibroblasts can also be maintained in monolayer culture under serum-free conditions, but in contrast to keratinocytes, a physiological level of extracellular ca2+ (above approximately 1.0 mM) is required. A variety of growth factors stimulate roliferation of both cell types but do not replace the CaP+ requirement of the fibroblast population. All-trans retinoic acid also promotes proliferation of both cell types and, most interestingly, replaces the requirement for a physiological level of ca2+ in the fibroblast cultures. Human skin can be maintained in organ culture for an extended period of time under serum-free conditions. Conditions optimized for fibroblast proliferation (either physiological ca2+ or all-trans retinoic acid) are required. In the presence of culture conditions optimized for the epithelial cell component, both the epidermis and dermis rapidly lyse. These data suggest that the fibroblast is the critical component in maintaining homeostasis of skin, and that maintenance of the epidermis as well as the dermis depends on the viability and functioning of these cells.

Published
1998

20. Human skin in organ culture. Elaboration of proteolytic enzymes in the presence and absence of exogenous growth factors

Author

Varani, J., Perone, P., Inman, D. R., Burmeister, W., Schollenberger, S. B., Fligiel, S. E., Sitrin, R. G., and Johnson, K. J.

Subjects
Keratinocytes, Organ Culture Techniques, Serine Endopeptidases, Humans, Metalloendopeptidases, Fibroblasts, Growth Substances, Cells, Cultured, Research Article, Skin
Abstract

Proteinase levels were assessed in organ culture fluids from human neonatal foreskin maintained under growth factor-free conditions and in the presence of a combination of growth factors (ie, epidermal growth factor, insulin, hydrocortisone, pituitary extract, and all-trans-retinoic acid). Analysis of culture fluids by gelatin zymography revealed the presence of 92-kd and 72-kd gelatinases. There was a greater amount of 92-kd gelatinase activity in the presence of growth factors whereas the levels of 72-kd gelatinase were similar in growth factor-free and growth factor-containing media. Experiments with keratinocytes and fibroblasts in monolayer culture and with isolated dermal tissue in organ culture indicated that the epithelial component was responsible for most of the 92-kd gelatinase activity whereas fibroblasts were primarily responsible for the 72-kd gelatinase activity. Activation with aminophenyl mercuric acetate, requirement for divalent cations, inhibition with EDTA, and insensitivity to inhibition with phenylmethyl sulfonyl fluoride indicated that both gelatinases were metalloproteinases. In additional studies, culture fluids were examined for the presence of plasminogen activator activity. This was detected in culture fluids from tissues maintained under both conditions but was increased in the growth factor-containing medium. The increased amount seen in the growth factor-containing medium appeared to be due almost entirely to a single factor, ie, all-trans-retinoic acid. In monolayer culture, both keratinocytes and fibroblasts produced plasminogen activator; the level was higher in keratinocyte culture fluids than in culture fluids from fibroblasts.

Published
1995

21. Spontaneous injury to human umbilical vein endothelial cells increases during in vitro culture and is blocked by protein kinase activation

Author

Cg, Taylor, Michael K Dame, Hs, Murphy, Pa, Ward, and Varani J

Subjects
Glutathione Peroxidase, Umbilical Veins, Cell Death, Superoxide Dismutase, Electron Spin Resonance Spectroscopy, Free Radical Scavengers, Catalase, Iron Chelating Agents, Staurosporine, Glutathione, Cyclic N-Oxides, Enzyme Activation, Alkaloids, Humans, Tetradecanoylphorbol Acetate, Spin Labels, Endothelium, Vascular, Protein Kinases, Cells, Cultured, Protein Kinase C
Abstract

The in vitro culture of human umbilical vein endothelial (Huve) cells alters sensitivity to cell injury. Late passage Huve cells in basal media have an increased susceptibility to spontaneous injury and this type of cell injury is blocked by phorbol myristate acetate (PMA).Protein kinase activation and alterations in free radical generation and defense were investigated as potential mechanisms for the increased spontaneous injury of late passage Huve cells in basal media and for the PMA-mediated protective response.The spontaneous injury of late passage Huve cells in basal media was blocked by PMA via a protein kinase-dependent mechanism. Huve cells cultured in vitro for several passages had increased basal particulate fraction protein kinase activity and increased activity in response to PMA treatment as compared with first passage cells. The spontaneous injury was not reduced by addition of free radical scavengers or iron chelators. The increased spontaneous injury in late passage Huve cells, and the protective effects of PMA treatment were not explained by alterations in the endogenous antioxidant defense system. PMA-mediated protection against spontaneous injury was blocked by staurosporine, a protein kinase inhibitor, but not by addition of various free radical scavengers or chelators.These data suggest that the cellular changes mediated by protein kinase are more important than free radical metabolism or antioxidant defense as an explanation for the increased spontaneous injury of late passage Huve cells in basal media and for the ability of PMA to block this type of spontaneous cell injury.

Published
1994

22. All-trans retinoic acid and extracellular Ca2+ differentially influence extracellular matrix production by human skin in organ culture

Author

Varani, J., Larson, B. K., Perone, P., Inman, D. R., Fligiel, S. E., and Voorhees, J. J.

Subjects
Time Factors, Dose-Response Relationship, Drug, Drug Synergism, Enzyme-Linked Immunosorbent Assay, Tretinoin, Platelet Membrane Glycoproteins, Precipitin Tests, Culture Media, Extracellular Matrix, Fibronectins, Organ Culture Techniques, Humans, Calcium, Laminin, Thrombospondins, Research Article, Skin
Abstract

Two-mm full-thickness punch biopsies of human skin were placed in organ culture in a serum-free, growth factor-free basal medium. Under conditions of low extracellular Ca2+ (0.15 mmol/L), the tissue quickly degenerated. However, degeneration was prevented when the extracellular Ca2+ concentration was increased to 1.4 mmol/L. The tissue remained histologically normal in appearance and biochemically active for up to 12 days. The addition of 3 mumol/L all-trans retinoic acid (RA) to the low-Ca2+ culture medium also prevented tissue degeneration. However, in contrast to what was seen in the presence of 1.4 mmol/L Ca2+, epidermal differentiation did not occur normally in the presence of RA. Rather, the upper layers of the epidermis routinely separated from the underlying basal cells. Fibronectin production by the organ cultured skin was examined. Biosynthetic labeling/immunoprecipitation studies demonstrated that incubation of the tissue in basal medium containing 1.4 mmol/L Ca2+ resulted in a high level of fibronectin production relative to the amount produced in basal medium containing 0.15 mmol/L Ca2+. In contrast, the addition of 3 mumol/L RA to the low Ca2+ basal medium did not stimulate fibronectin production. Similar results were observed in enzyme-linked immunosorbent assays where the addition of Ca2+ to a final concentration of 1.4 mmol/L stimulated fibronectin and thrombospondin production whereas RA (3 mumol/L) did not. Although RA by itself failed to stimulate extracellular matrix production, the addition of 3 mumol/L RA to basal medium containing 1.4 mmol/L Ca2+ led to a further increase in fibronectin production over that seen in the presence of 1.4 mmol/L Ca2+ alone. Taken together, these data indicate that although either 1.4 mmol/L Ca2+ or 3 mumol/L RA facilitates survival of organ-cultured skin in basal medium, they have very different effects on extracellular matrix production. This supports the view, based on histological appearance, that the two treatments work through different mechanisms. The data further support the suggestion that the two treatments may have additive or even synergistic effects.

Published
1993

24. Human umbilical vein endothelial cell killing by activated neutrophils. Loss of sensitivity to injury is accompanied by decreased iron content during in vitro culture and is restored with exogenous iron

Author

Varani J, Michael K Dame, Df, Gibbs, Cg, Taylor, Jm, Weinberg, Shayevitz J, and Pa, Ward

Subjects
Cytotoxicity, Immunologic, Oxygen, Umbilical Veins, Neutrophils, Iron, Humans, Endothelium, Vascular, Oxyquinoline, Cells, Cultured
Abstract

First passage human umbilical vein endothelial cells (HUVECs) were sensitive to killing by activated neutrophils and reagent hydrogen peroxide (H2O2). Catalase and deferoxamine prevented killing whereas soybean trypsin inhibitor and superoxide dismutase did not. In these regards, HUVECs are similar to previously characterized endothelial cells from bovine and rat. Although first passage HUVECs were killed by activated neutrophils, sensitivity fell off rapidly as the cells were maintained in culture. At passage 2 (four population doublings), and beyond, HUVECs were highly resistant. The cells also became resistant to killing by reagent H2O2. The acquisition of resistance to killing was not accompanied by a failure to up-regulate neutrophil adhesion molecules or to support neutrophil adhesion. Levels of intracellular anti-oxidants (total thiols, though not glutathione, glutathione peroxidase or catalase activity) increased as a function of passage in culture. However, levels of glutathione and total thiols in late passage (resistant) HUVECs were similar to levels in late passage rat pulmonary artery endothelial cells, that were sensitive to killing by activated neutrophils. Cell-associated iron in HUVECs fell as a function of time in culture. By passage 2, the amount of total iron measurable with the Ferrozine reagent was only about 30% of the amount recovered from first passage HUVECs. The loss of iron from the cells may underlie much of the concomitant resistance to killing because when the cells were pretreated with iron under conditions in which it could be taken up, sensitivity to killing by activated neutrophils and by H2O2 was restored.

Published
1992

25. Protection of human umbilical vein endothelial cells by glycine and structurally similar amino acids against calcium and hydrogen peroxide-induced lethal cell injury

Author

Weinberg, J. M., Varani, J., Johnson, K. J., Roeser, N. F., Dame, M. K., Davis, J. A., and Venkatachalam, M. A.

Subjects
Manganese, Umbilical Veins, Cell Death, Uncoupling Agents, Ionomycin, Glycine, Humans, Calcium, Endothelium, Vascular, Hydrogen Peroxide, Amino Acids, Cells, Cultured, Research Article
Abstract

Cultured human umbilical vein endothelial cells treated with either the calcium ionophore, ionomycin, or ionomycin plus cyanide-m-chlorophenylhydrazone had immediate severe depletion of adenosine triphosphate, (ATP) and increases of cytosolic free calcium (Caf) and then sustained lethal cell injury as manifested by release of lactate dehydrogenase and failure to exclude vital dyes within 15 minutes. Inclusion of glycine in the experimental medium prevented the enzyme leakage for at least 60 minutes without altering the ATP depletion or increases of Caf. The physiologic glycine concentration of 0.25 mmol/l gave 50% protection, and protection was complete at 1 mmol/l. Several other small neutral amino acids, L- and D-alanine, beta-alanine, 1-aminocyclopropane-1-carboxylate, alpha-aminoisobutyrate, and L-serine, had effects similar to glycine, but other amino acids and metabolic substrates did not. The endothelial cells were relatively resistant to damage from hydrogen peroxide, but sensitivity could be increased by preloading with Fe2+. In both non-loaded and Fe(2+)-loaded cells, hydrogen-peroxide-induced lactate dehydrogenase (LDH) release developing over 180 minutes was prevented by glycine in a fashion analogous to that seen with ionomycin damage. Mn2+ also partially protected against hydrogen peroxide injury but was not required for glycine's effects. These data demonstrate that striking modulatory effects of glycine and structurally similar amino acids that have previously been characterized in most detail using kidney tubule cells are strongly expressed in human umbilical vein endothelial cells and are involved in their response to Ca2+ and oxidant-mediated damage. These amino acid effects must be considered in the design of in vitro studies of endothelial cell injury and may contribute to endothelial cell pathophysiology in vivo.

Published
1992

26. Vitamins as Hormones

Author

Reichrath, J., primary, Lehmann, B., additional, Carlberg, C., additional, Varani, J., additional, and Zouboulis, C., additional

Published
2007
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27. Effects of all-trans retinoic acid on neutrophil-mediated endothelial cell injury in vitro and immune complex injury in rats

Author

Varani, J., Jones, J., Michael K Dame, Sulavik, C., Gibbs, D. F., and Johnson, K. J.

Subjects
Male, Neutrophils, Serum Albumin, Bovine, Tretinoin, Rats, Oxygen, Endopeptidases, Cell Adhesion, Animals, Humans, Immune Complex Diseases, Tetradecanoylphorbol Acetate, Endothelium, Vascular, Cells, Cultured, Research Article
Abstract

All-trans retinoic acid (RA) has beneficial effects when used in a variety of inflammatory skin conditions. In this study, the authors found that RA inhibited superoxide anion production and proteolytic enzyme release by human and rat neutrophils. Concomitantly, the authors found that RA-treated neutrophils were less able than untreated neutrophils to injure endothelial cells in culture even though the adhesion of the RA-treated neutrophils to endothelial cell monolayers was not diminished. Inhibition of cytotoxicity occurred over the same range of concentrations that inhibited oxygen radical formation and protease release. In additional studies, it was observed that pretreatment of endothelial cells with RA-induced resistance to subsequent injury by activated neutrophils. Finally, in vivo studies showed that pretreatment of rats for 3 days with RA (1-10 mg/day, IP) reduced the degree of injury in the lungs and skin sites after treatment with bovine serum albumin and antibodies to bovine serum albumin in the reverse-passive Arthus reaction. Thus, RA can modulate neutrophil-mediated endothelial cell injury by an effect on both the neutrophils and their target cells. Together, these effects may underlie the reduction in immune complex-mediated injury seen in experimental animals. The beneficial effects that retinoids have in a variety of inflammatory skin diseases may likewise be a reflection of their effects on the physiology of both neutrophils and endothelial cells.

Published
1991

29. Retinoic acid stimulation of human dermal fibroblast proliferation is dependent on suboptimal extracellular Ca2+ concentration

Author

Varani, J., Shayevitz, J., Perry, D., Mitra, R. S., Nickoloff, B. J., and Voorhees, J. J.

Subjects
Keratinocytes, Male, Methionine, Dose-Response Relationship, Drug, Humans, Calcium, Tretinoin, Fibroblasts, Sulfur Radioisotopes, Cell Division, Cells, Cultured, Research Article, Culture Media
Abstract

Human dermal fibroblasts failed to proliferate when cultured in medium containing 0.15 mmol/l (millimolar) Ca2+ (keratinocyte growth medium [KGM]) but did when the external Ca2+ concentration was raised to 1.4 mmol/l. All-trans retinoic acid (retinoic acid) stimulated proliferation in KGM but did not further stimulate growth in Ca2(+)-supplemented KGM. The ability of retinoic acid to stimulate proliferation was inhibited in KGM prepared without Ca2+ or prepared with 0.03 mmol/l Ca2+ and in KGM treated with 1 mmol/l ethylene-glycol-bis-(beta-aminoethyl ether)N,N'-tetra acetic acid. Using 45Ca2+ to measure Ca2+ influx and efflux, it was found that retinoic acid minimally increased Ca2+ uptake into fibroblasts. In contrast, retinoic acid treatment of fibroblasts that had been pre-equilibrated for 1 day with 45Ca2+ inhibited release of intracellular Ca2+ into the extracellular fluid. Retinoic acid also stimulated 35S-methionine incorporation into trichloroacetic acid-precipitable material but in contrast to its effect on proliferation, stimulation of 35S-methionine incorporation occurred in both high-Ca2+ and low-Ca2+ medium. These data indicate that retinoic acid stimulation of proliferation, but not protein synthesis, is dependent on the concentration of Ca2+ in the extracellular environment.

Published
1990

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