Barbara A. Benson scite author profile

Vascular endothelial cells (EC) perform critical functions that require a balance of cell survival and cell death. EC death by apoptosis and EC activation and injury by the membrane attack complex of complement are important mechanisms in atherosclerosis and organ graft rejection. Although the effects of various cytokines on EC apoptosis have been studied, little is known about their effects on complement-mediated EC injury. Therefore, we studied the abilities of various cytokines to induce protection of porcine aortic EC against apoptosis and killing by human complement, a model of pig-to-human xenotransplantation. We found that porcine EC incubated with IL-4 or IL-13, but not with IL-10 or IL-11, became protected from killing by complement and apoptosis induced by TNF-α plus cycloheximide. Maximal protection required 10 ng/ml IL-4 or IL-13, developed progressively from 12 to 72 h of incubation, and lasted 48–72 h after cytokine removal. Protection from complement was not associated with reduced complement activation, C9 binding, or changes in CD59 expression. Inhibition of PI3K prevented development of protection; however, inhibition of p38 MAPK or p42/44 MAPK had no effect. IL-4 and IL-13 induced rapid phosphorylation of Akt. Although protection was inhibited by an Akt inhibitor and a dominant negative Akt mutant transduced into EC, it was induced by transduction of EC with the constitutively active Akt variant, myristylated Akt. We conclude that IL-4 and IL-13 can induce protection of porcine EC against killing by apoptosis and human complement through activation of the PI3K/Akt signaling pathway.

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Resistance Against the Membrane Attack Complex of Complement Induced in Porcine Endothelial Cells with a Galα(1–3)Gal Binding Lectin: Up-Regulation of CD59 Expression

Dalmasso

Benson

Johnson

et al. 2000

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Endothelial cells (EC) play central roles in vascular physiology and pathophysiology. EC activation results in proinflammatory activities with production of cytokines and expression of adhesion molecules. However, we have shown before in a model of xenotransplantation that prolonged stimulation of porcine EC with human anti-porcine IgM natural Abs can activate the cells to become resistant against cytotoxicity by the membrane attack complex of complement (MAC). Now we report the major characteristics of induction and maintenance of resistance elicited in porcine EC with Bandeiraea simplicifolia lectin that binds terminal galα(1–3)gal. Lectin-treated cells underwent little or no cytotoxicity and PGI2 release when exposed to MAC. Induction of resistance required incubation of the EC with lectin for 4 h but was not fully manifested until 16 h later. Most of the initially bound lectin remained on the cell surface for >60 h. EC-bound lectin did not inhibit binding of IgM natural Abs or activation and binding of C components, including C9, but a C-induced permeability channel of reduced size was present. Induction of resistance required protein synthesis, developed slowly, and was associated with up-regulation of expression of mRNA for the MAC inhibitor CD59 and membrane-associated CD59 protein. Resistance lasted at least 3 days, and the cells regained normal morphology and were metabolically active. This induced resistance may have a physiologic counterpart that might be amenable to pharmacologic manipulation in vascular endothelium pathophysiology.

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Cannabinoid receptor-specific mechanisms to alleviate pain in sickle cell anemia via inhibition of mast cell activation and neurogenic inflammation

et al. 2015

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Sickle cell anemia is a manifestation of a single point mutation in hemoglobin, but inflammation and pain are the insignia of this disease which can start in infancy and continue throughout life. Earlier studies showed that mast cell activation contributes to neurogenic inflammation and pain in sickle mice. Morphine is the common analgesic treatment but also remains a major challenge due to its side effects and ability to activate mast cells. We, therefore, examined cannabinoid receptor-specific mechanisms to mitigate mast cell activation, neurogenic inflammation and hyperalgesia, using HbSS-BERK sickle and cannabinoid receptor-2-deleted sickle mice. We show that cannabinoids mitigate mast cell activation, inflammation and neurogenic inflammation in sickle mice via both cannabinoid receptors 1 and 2. Thus, cannabinoids influence systemic and neural mechanisms, ameliorating the disease pathobiology and hyperalgesia in sickle mice. This study provides 'proof of principle' for the potential of cannabinoid/cannabinoid receptor-based therapeutics to treat several manifestations of sickle cell anemia.

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Comparative Analysis of Pain Behaviours in Humanized Mouse Models of Sickle Cell Anemia

et al. 2016

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Pain is a hallmark feature of sickle cell anemia (SCA) but management of chronic as well as acute pain remains a major challenge. Mouse models of SCA are essential to examine the mechanisms of pain and develop novel therapeutics. To facilitate this effort, we compared humanized homozygous BERK and Townes sickle mice for the effect of gender and age on pain behaviors. Similar to previously characterized BERK sickle mice, Townes sickle mice show more mechanical, thermal, and deep tissue hyperalgesia with increasing age. Female Townes sickle mice demonstrate more hyperalgesia compared to males similar to that reported for BERK mice and patients with SCA. Mechanical, thermal and deep tissue hyperalgesia increased further after hypoxia/reoxygenation (H/R) treatment in Townes sickle mice. Together, these data show BERK sickle mice exhibit a significantly greater degree of hyperalgesia for all behavioral measures as compared to gender- and age-matched Townes sickle mice. However, the genetically distinct “knock-in” strategy of human α and β transgene insertion in Townes mice as compared to BERK mice, may provide relative advantage for further genetic manipulations to examine specific mechanisms of pain.

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Human IgM xenoreactive natural antibodies can induce resistance of porcine endothelial cells to complement‐mediated injury

Dalmasso

Benson

1996

Xenotransplantation

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It is thought that human IgM xenoreactive natural antibodies (nAbs) can induce activation of porcine endothelial cells independent of complement. Therefore we hypothesized that pretreatment of porcine endothelial cells with anti‐pig nAbs may affect the ability of the endothelial cells, when subsequently incubated with a source of nAbs and complement, to bind antibodies and complement components and to undergo complement‐mediated cytotoxicity. We preincubated porcine endothelial cells at 37°C for 1 hr or 40 hr with a source of nAbs. We then incubated these pretreated endothelial cells with a complement source that contained a normal complement level and a low level of IgM nAbs for 1 hr to measure bound IgM and IgG and complement components, and for 4 hr to measure cytotoxicity. We found that preincubation for as long as 40 hr did not impair the binding of IgM and IgG, implying no antibody‐induced loss of membrane antigens from the endothelial cells, or the binding of C3bi, C4d, C6, and C9 upon complement activation. In contrast, preincubation for 40 hr with a nAb source induced in the endothelial cells marked resistance to complement‐mediated killing. Resistance could be induced with purified human IgM but not with purified IgG or IgM‐depleted human serum. The ability of purified IgM to induce resistance was abrogated by removal of anti‐pig xenoreactive nAbs by absorption with pig endothelial cells, and induction of resistance required protein synthesis. We conclude that prolonged incubation of human anti‐pig nAbs with pig endothelial cells does not cause loss of endothelial cell membrane antigens or impairment in binding of nAbs or complement components; instead, it induces marked resistance to complement‐mediated cytotoxicity. These observations may be of value to develop strategies that enhance survival of a xenograft.

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Barbara A. Benson

IL-4 and IL-13 Induce Protection of Porcine Endothelial Cells from Killing by Human Complement and from Apoptosis through Activation of a Phosphatidylinositide 3-Kinase/Akt Pathway

Resistance Against the Membrane Attack Complex of Complement Induced in Porcine Endothelial Cells with a Galα(1–3)Gal Binding Lectin: Up-Regulation of CD59 Expression

Cannabinoid receptor-specific mechanisms to alleviate pain in sickle cell anemia via inhibition of mast cell activation and neurogenic inflammation

Comparative Analysis of Pain Behaviours in Humanized Mouse Models of Sickle Cell Anemia

Human IgM xenoreactive natural antibodies can induce resistance of porcine endothelial cells to complement‐mediated injury

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