Tony E. Hugli

Requirement and role of C5a in acute lung inflammatory injury in rats.

The complement activation product, C5a, may play a key role in the acute inflammatory response. Polyclonal antibody to rat C5a was used to define the requirements for C5a in neutrophil-dependent inflammatory lung injury after systemic activation of complement by cobra venom factor (CVF) or after intrapulmonary deposition of IgG immune complexes. In the CVF model, intravenous infusion (but not intratracheal instillation) of anti-C5a produced a dose-dependent reduction in lung permeability and in lung content of myeloperoxidase. In C6-deficient rats, CVF infusion caused the same level of lung injury (measured by leak of 125I-albumin) as found in C6-sufficient rats. In the IgG immune complex model of lung injury, anti-C5a administered intratracheally (but not intravenously) reduced in a dose-dependent manner both the increase in lung vascular permeability as well as the buildup of lung myeloperoxidase. Treatment with anti-C5a greatly suppressed upregulation of lung vascular intercellular adhesion molecule-1 (ICAM-1). This was correlated with a substantial drop in levels of TNFalpha in bronchoalveolar fluids. These data demonstrate the requirement for C5a in the two models of injury. In the IgG immune complex model, C5a is required for the full production of TNFalpha and the corresponding upregulation of lung vascular ICAM-1.

Complement factors and their receptors.

In summary, recent advances in molecular cloning of anaphylatoxins and the anaphylatoxin receptors add new dimensions to our investigations and understanding of the molecular mechanisms involved in anaphylatoxin action. Combining knowledge accumulated from peptide modeling of the ligands with mutagenesis studies of these ligands and their receptors makes it possible to more accurately model interactive sites and understand the sequence of molecular interactions required for cellular activation. In addition, these new developments provide valuable tools for investigating, yet unknown, activities and cellular targets of the anaphylatoxin molecules.

Neuronal Expression of a Functional Receptor for the C5a Complement Activation Fragment

The present studies were undertaken to determine whether neuronal subsets in normal brains constitutively express functionally competent C5a receptors. In situ hybridization studies coupled with immunohistochemical approaches revealed that most neurons in the hippocampal formation, many pyramidal cortical neurons, and cerebellar Purkinje neurons in normal human and murine brains constitutively express C5a receptors. Neuronal C5a receptors bound C5a-coated fluorescent microspheres, and primary rodent hippocampal neurons responded to C5a with increased calcium fluxes via a pertussis-sensitive, presumably Gi-coupled protein. Additional studies with human neuroblastoma cells conducted to address the functional role of C5a receptors revealed that C5a triggered rapid activation of protein kinase C and activation and nuclear translocation of the NF-κB transcription factor. In addition, C5a was found to be mitogenic for undifferentiated human neuroblastoma cells, a novel action for the C5aR. In contrast, C5a protected terminally differentiated human neuroblastoma cells from toxicity mediated by the amyloid Aβ peptide. Thus, normal rodent hippocampal neurons as well as undifferentiated and differentiated human neuroblastoma cells express functional C5a receptors. These results have implications for understanding the role of neuronal C5aR receptors in normal neuronal development, neuronal homeostasis, and neuroinflammatory conditions such as Alzheimer’s disease.

Early Local Generation of C5a Initiates the Elicitation of Contact Sensitivity by Leading to Early T Cell Recruitment

We have shown previously that an early complement C5-dependent cascade is required to recruit T cells to elicit 24-h contact sensitivity (CS) responses. In this paper, we have characterized molecular events of this early required cascade by biochemically analyzing extracts of mouse ears undergoing elicitation of CS. Chemotactic activity was found after local Ag challenge, in CS ear extracts early (by 1 h), in CS ear extracts late (through 24 h), in previously immunized mice, but not in ears of vehicle-immunized or non-immune-challenged mice. The early chemotactic activity at 2 h was likely caused by C5a, because it was neutralized in vitro by anti-C5a Ab, was inactive on C5aR-deficient (C5aR−/−) macrophages, and was absent in C5-deficient mice. The activity was present in T cell-deficient mice, but elaboration was Ag-specific. This T cell-independent, Ag-specific elaboration of C5a early in CS ear responses likely led to T cell recruitment, because subsequent local IFN-γ mRNA and protein expression, as markers of T cell arrival and activation, began by 4 h after Ag challenge. In contrast to early C5a chemotactic activity, late chemotactic activity 24 h after Ag challenge was unaffected by anti-C5, was active on C5aR−/− macrophages, was T cell-dependent, and by ELISA appeared largely due to chemokines (macrophage-inflammatory protein-1α and -1β, IFN-γ-inducible protein-10, and monocyte chemoattractant protein-1). Importantly, early generation of C5a was required for T cell recruitment because C5aR−/− mice had absent 24-h CS. Taken together, these findings indicate an important linkage of C5a as a component of early activated innate immunity that is required for later elicitation of acquired T cell immunity, probably by facilitating the initial recruitment of T cells into the Ag-challenged local site in CS responses.

Association of urinary leukotriene E4 excretion during aspirin challenges with severity of respiratory responses

BACKGROUND Asthmatics with aspirin- (ASA) sensitive respiratory disease (ASRD) have a spectrum of respiratory reactions during oral ASA challenge that vary in severity and are temporally associated with leukotriene (LT) formation. OBJECTIVE This study investigates the relationship of the severity of ASA-induced respiratory reactions to urinary LTE(4) excretion. METHODS Asthmatics with suspected ASRD underwent oral ASA challenges. Urinary LTE(4) levels were measured at baseline, during the reaction, and after acute ASA desensitization. RESULTS Asthmatics who had respiratory reactions during oral ASA challenges were divided into 3 groups: asthmatics with naso-ocular reactions and <15% decline from baseline FEV(1) values (group 1), asthmatics with a decline in FEV(1) of 20% to 30% (group 2), and asthmatics with a decline in FEV(1) of >30% (group 3). There were no significant differences in age, baseline FEV(1) values, use of inhaled corticosteroids, daily prednisone doses, prednisone bursts, duration of reactions, or average provoking doses of ASA among the groups. At baseline group 3 asthmatics had significantly higher urinary LTE(4) levels than those in groups 1 or 2. At the time of respiratory reaction to ASA, the urinary LTE(4) levels rose significantly in all groups but were significantly greater among group 3 asthmatics compared with those in groups 1 and 2. CONCLUSION The severity of the respiratory reactions during oral ASA challenges was associated with the degree of elevation of baseline LTE(4) synthesis. Our results suggest that asthmatics with ASRD have a spectrum of respiratory tract reactions in which leukotrienes play a distinguishing role.

Structural Changes Accompanying Enzymatic Activation of Human Hageman Factor

The structure of Hageman factor, isolated from human plasma, was analyzed before and after enzymatic activation. The purified molecule is a single polypeptide chain of 80,000 molecular weight (mol wt) sedimenting at 4.5S. An amino acid analysis has been performed. The concentration of Hageman factor in normal human plasma was found to be 29 mug/ml with variation between individuals ranging from 15 to 47 mug/ml. Treatment of the molecule with kallikrein, plasmin, or trypsin resulted in cleavage at two primary sites, yielding fragments of 52,000, 40,000, and 28,000 mol wt. No further changes occurred in the fragments with subsequent reduction. Prekallikrein-activating ability was associated exclusively with the 28,000 moiety.

Role of cell surface contact in the kinetics of superoxide production by granulocytes.

The complement-derived anaphylatoxin C5a and a putative analogue of bacterial chemotactic factor (N-formyl-methionyl-leucyl-phenylalanyl [fMLP]), as well as bacterial lipid A, all stimulate human granulocyte (PMN) adhesiveness and superoxide (O-2) production in a concentration-dependent manner. Since attachment of particulate matter to the PMN membrane is an early event in the triggering of respiratory burst of these cells, we further examined how adherence might modulate the release of O-2 induced by soluble mediators of inflammation. We found that both the quantity and kinetics of O-2 production depend on prior attachment of the cells to a surface. In stirred suspensions of PMN, fMLP induces only a short burst (2.5 min) of O-2 release associated with reversible PMN aggregation. The magnitude, but not the time course, of both these responses depend on the fMLP concentration. Unlike the short respiratory response of cells in suspension, PMN allowed to settle onto stationary petri dishes, then overlaid with fMLP, rapidly spread and attach to the surface where they remain and release O-2 throughout the 60-min test period. Prolonged O-2 release also follows fMLP stimulation in suspensions of PMN pretreated with cytochalasin B, in which case aggregation becomes irreversible during the 20-min burst. If fMLP is slowly infused into a suspension of cells at 37 degrees C or if PMN are challenged at 0 degrees C, and then warmed to 37 degrees C, O-2 release greatly decreases or becomes undetectable. Suspended PMN do not respond to a second challenge by the same stimulus regardless of the rate or temperature at which the first stimulus was added, a phenomenon formerly described as desensitization. However, if PMN challenged with fMLP in suspension undergo the short respiratory response and then are later placed in petri dishes, they adhere and resume production of O-2 without further stimulation. Chemotactic factor-induced adherence and O-2 release of PMN on a surface is entirely independent of either the mode of activation or prior O-2 release during preincubation in suspension. Human C5a also promotes PMN adherence and prolonged O-2 release in petri dishes. Furthermore, lipid A increases O-2 release and adherence of settled PMN, but fails to elicit either response from suspended PMN. These results indicate that cell surface contact plays an essential role in triggering the respiratory burst of PMN activated by soluble stimuli. This long-lasting O-2 release by chemotactic factor-stimulated PMN may play a significant role in inflammatory reactions when PMN become adherent in vivo.

Familial carboxypeptidase N deficiency.

Carboxypeptidase N is a serum metalloenzyme that inactivates C3a, C4a, C5a, bradykinin, kalladin, and fibrinopeptides. Of 172 sera from patients with chronic urticaria or angioedema, one had a remarkably depressed carboxypeptidase N level (21% of normal). Of sera from 103 patients with other diseases, elevated levels were observed in cases of neoplasms, and one abnormally low value was detected in a patient with cirrhosis. The patient with a remarkably low carboxypeptidase N level was a 65-year-old man with an 11-year history of episodic angioedema occurring about 40 times per year. Inactivation of C3a and lysyl-bradykinin by his serum was markedly prolonged. Plasma histamine was elevated during attacks, but serotonin and kinin activity were not. The probands sister had an equally depressed serum carboxypeptidase N level, and studies of other family members suggested an autosomal recessive inheritance of the enzyme deficiency.

The Pancreas as a Source of Cardiovascular Cell Activating Factors

Objective: Physiological shock leads to elevated levels of plasma factors that activate circulating leukocytes and endothelial cells, thereby compromising microvascular functions. The nature and source of these plasma‐derived activators are unknown. To examine the possible origin of these factors, we homogenized rat internal organs and measured their activity on cardiovascular cells in vivo and in vitro.

Cleavage of human complement component C5 by cysteine proteinases from Porphyromonas (Bacteroides) gingivalis. Prior oxidation of C5 augments proteinase digestion of C5.

Since severe periodontitis is characterized by an acute inflammatory response with cellular infiltration and microbial overgrowth, plasma proteins could be exposed to both proteinases and oxidants released from the granulocytes, as well as to proteinases from the microorganisms. When human complement component C5 was digested by cysteine proteinases (i.e. gingipain‐R and gingipain‐K) from Porphyromonas gingivalis, limited cleavage of the C5 molecule was observed. If C5 was first oxidized by hydroxyl radicals, these gingipains converted modified C5 to fragments that exhibited significantly greater pro‐inflammatory activity than did digests of unmodified C5. After cleavage of oxidized C5 by gingipain‐R, the digest exhibited measurably greater neutrophil enzyme release and chemotaxis of human polymorphonuclear leukocytes (PMNs) compared with the activities of unoxidized C5 digests. Gingipain‐K generates virtually no polarization or chemotactic activity of human PMNs from C5, nor is enzyme release stimulated by these C5 digests. However, when oxidized C5 was digested by gingipain‐K, human PMNs were stimulated for polarization, chemotaxis and enzyme release indicating that an active fragment had been generated. Proteolysis of oxidized C5 evokes greater neutrophil activation than does proteolysis of unoxidized protein, a fact which supports the hypothesis that oxidation and proteolysis may be coupled to enhance the destructive effects of the inflammatory process. These results, in which digests of both oxidized and unmodified complement component C5 were evaluated, support the general concept that oxidation and proteolysis may participate cooperatively in amplifying both the severity and duration of the inflammatory reaction.