Evaluation of the in vitro pyrogen test system based on proinflammatory cytokine release from human monocytes: comparison with a human whole blood culture test system and with the rabbit pyrogen test

The reliability of an in vitro pyrogen test system based on proinflammatory cytokine release from human monocytic cells was assessed by comparison with a test system based on a human whole blood culture as well as with the conventional rabbit pyrogen test. The human cells used as the pyrogen indicator cells were newly selected by subcloning of a human monocytic cell line, Mono-Mac-6. The selected cells, named MM6-CA8, responded to various pyrogens, including endotoxin, peptidoglycan (PG), Staphylococcus aureus Cowan 1 (SAC), and poly(I x C), with a high sensitivity and produced proinflammatory cytokines, such as interleukin 1 (IL-1), IL-6, and tumor necrosis factor alpha. Among these cytokines, IL-6 was produced most sensitively in response to traces of the pyrogens and detected in the largest quantities in the culture medium. The cytokine-producing responses of MM6-CA8 cells correlated significantly with the responses of cultured human whole blood, which represents an ex vivo culture test system reproducing pyrogen-induced cytokine production in the human body. In terms of cytokine inducibility, the pyrogens were ranked in the order endotoxin > PG > poly (I. C) > SAC in both culture systems, a ranking which almost agreed with the ranking of their pyrogenicity as assessed by the rabbit pyrogen test. These results suggest that the in vitro responsiveness of MM6-CA8 cells to various pyrogens is highly relevant for human pyrogenic reactions. Therefore, the in vitro test system is useful and reliable for detecting the presence of materials that are pyrogenic for humans.     

Chemical and biological evaluation of endotoxin contamination on natural rubber latex products

Relationship between pyrogenicity and bacterial endotoxin contamination on latex products was demonstrated by chemical analysis and biological assays. In commercially available latex products' surveillance, water extracts prepared from one surgical glove and two silicone elastomer-coated Foley catheters sterilized by gamma-irradiation were obviously pyrogenic in rabbits. The induced fever was monophasic at low dose of the pyrogenic extracts and biphasic at high dose. These extracts exhibited limulus amebocyte lysate gelation activity, and induced inflammatory cytokine (interleukin-1, interleukin-6, and tumor necrosis factor-alpha) production from MM6-CA8 human monocytoid cells. These biological properties, including pyrogenicity, completely disappeared by treating the pyrogenic extracts with endotoxin-adsorbent affinity column. Limulus amebocyte lysate activity and cytokine production from MM6-CA8 cells induced by the extracts were significantly decreased by endotoxin inhibitors, an active fragment peptide of an 18-kDa cationic antimicrobial protein and a synthetic lipid A B464 analogue. Furthermore, very small amounts of 2-keto-3-deoxyoctonate and 3-hydroxy fatty acid, which are common constituents of bacterial endotoxins, were detected by gas chromatography-mass spectrometry analysis of the pyrogenic extracts. These findings clearly showed that the pyrogenicity found in these latex products originated from endotoxins contaminating the products.     

Evaluation of the In Vitro Pyrogen Test System Based on Proinflammatory Cytokine Release from Human Monocytes: Comparison with a Human Whole Blood Culture Test System and with the Rabbit Pyrogen Test

The reliability of an in vitro pyrogen test system based on proinflammatory cytokine release from human monocytic cells was assessed by comparison with a test system based on a human whole blood culture as well as with the conventional rabbit pyrogen test. The human cells used as the pyrogen indicator cells were newly selected by subcloning of a human monocytic cell line, Mono-Mac-6. The selected cells, named MM6-CA8, responded to various pyrogens, including endotoxin, peptidoglycan (PG), Staphylococcus aureus Cowan 1 (SAC), and poly(I·C), with a high sensitivity and produced proinflammatory cytokines, such as interleukin 1 (IL-1), IL-6, and tumor necrosis factor alpha. Among these cytokines, IL-6 was produced most sensitively in response to traces of the pyrogens and detected in the largest quantities in the culture medium. The cytokine-producing responses of MM6-CA8 cells correlated significantly with the responses of cultured human whole blood, which represents an ex vivo culture test system reproducing pyrogen-induced cytokine production in the human body. In terms of cytokine inducibility, the pyrogens were ranked in the order endotoxin > PG > poly (I·C) > SAC in both culture systems, a ranking which almost agreed with the ranking of their pyrogenicity as assessed by the rabbit pyrogen test. These results suggest that the in vitro responsiveness of MM6-CA8 cells to various pyrogens is highly relevant for human pyrogenic reactions. Therefore, the in vitro test system is useful and reliable for detecting the presence of materials that are pyrogenic for humans.     

Differentiation between endotoxin and non-endotoxin pyrogens in human albumin solutions using an ex vivo whole blood culture assay

Purified E.coli endotoxin, Gram negative bacteria and Gram positive bacteria induce IL-6 secretion by whole blood cultures (WBC's). Polymyxin B at concentrations greater than 2 U/ml completely inhibits IL-6 secretion caused by 10 EU/ml of endotoxin. Polymyxin B has no effect on IL-6 secretion by WBC's in the absence of endotoxin. The inhibition of endotoxin induced IL-6 secretion is Polymyxin B concentration dependent at concentrations less than 1 U/ml. IL-6 induction caused by E.coli is only partially inactivated by 8 U/ml Polymyxin B. Polymyxin B has no effect on IL-6 secretion caused by B.subtilis. Two pyrogenic batches of human serum albumin (HSA), as tested by the rabbit assay for pyrogens, were also investigated. Polymyxin B at 4 U/ml inhibits less than 40 % of IL-6 secretion caused by these pyrogenic HSA batches. All the endotoxin activity in HSA samples spiked with purified endotoxin is inhibited by Polymyxin B indicating that HSA does not protect endotoxin against Polymyxin B inhibition. These results indicate that the pyrogenicity of these HSA batches are caused by Polymyxin B inhibitable and non-inhibitable fractions. This study shows that pyrogenic substances other than endotoxin can contaminate batches of pharmaceutical products and that results obtained using the Limulus Amoebocyte Lysate (LAL) assay does not necessarily indicate the pyrogenic status of pharmaceutical products. The WBC assay for pyrogens, having a broader sensitivity range than the LAL assay, is a better indicator of the pyrogenic status of pharmaceutical products.     

Influence of fine structure of lipid A on Limulus amebocyte lysate clotting and toxic activities.

We examined the relationship between the fine structure of lipid A and the toxicity of endotoxin or lipopolysaccharides as measured by the Limulus amebocyte lysate (LAL), rabbit pyrogenicity, chicken embryo lethal dose, and dermal Shwartzman reaction tests. Lipid A and lipid A-like compounds obtained from deep-rough mutants of Salmonella spp. and Escherichia coli had a wide range of structural variations. These compounds included native lipopolysaccharides, diphosphoryl and monophosphoryl lipid A's, and lipid X (a monosaccharide). The LAL test was positive for all lipids tested with lysates from Travenol Laboratories and from Associates of Cape Cod (2.9 X 10(3) to 2.6 X 10(7) endotoxin units per mg), except for O-deacylated and dephosphorylated lipid X, which were negative. The Mallinckrodt lysate gave negative tests for lipid X. In the rabbit pyrogenicity and chicken embryo lethal dose tests, only native lipopolysaccharide and diphosphoryl lipid A's were judged toxic. The Shwartzman reaction was positive for a specific purified diphosphoryl lipid A (thin-layer chromatography-3 fraction) but negative for the purified monophosphoryl lipid A (also a thin-layer chromatography-3 fraction). These results show that the LAL test is not a valid measure of all parameters of toxicity of a lipid A or lipid A-like compound and can yield false-positive results. However, these findings are not in conflict with the widespread use of the LAL assay for pyrogens in the pharmaceutical industry since a good correlation exists between LAL results and pyrogenicity when undegraded endotoxin is evaluated in parallel assays.     

新型复合生物抗菌敷料的抗菌强度、吸湿能力及细胞毒性

背景：细菌感染是影响伤口愈合的主要因素之一,伤口渗出液里含有的大量炎症因子、蛋白酶和自由基都会减缓伤口的愈合速度。新型复合生物抗菌敷料的研发对治疗外科感染伤口有重要的意义,是创伤敷料发展的必然趋势。 目的：观察添加纳米银的海藻酸钙敷料的抗菌活性、吸湿能力及细胞毒性。 方法：将纳米银材料添加到海藻酸钙中制备新型复合生物抗菌敷料,并通过使用平板计数法、MTT法、电子显微镜观察法观察敷料的抗菌活性、吸湿能力及细胞毒性,再与银离子海藻酸钙敷料和海藻酸钙敷料进行对比,以期显示出新型复合生物抗菌敷料的具有强抗菌性及低细胞毒性的优势。 结果与结论：与银离子海藻酸钙敷料和海藻酸钙敷料相比,添加纳米银的新型复合生物抗菌敷料对金黄色葡萄球菌、铜绿假单胞菌均有更强的抑菌作用(P < 0.01),细胞毒性较低(P < 0.01);3种敷料的吸湿能力差异无显著性意义。证实此添加纳米银的海藻酸钙敷料的具有强抗菌性及低细胞毒性。      

Alginates from wound dressings activate human macrophages to secrete tumour necrosis factor-alpha

Alginates are used to manufacture a number of wound dressings. Clinical observations indicate that they may initiate or accelerate healing of chronic wounds after treatment of underlying pathology. Wound granulation tissue contains large numbers of macrophages and they are thought to regulate the healing process. As purified alginates have been demonstrated to activate macrophages this study was initiated to determine whether alginates present within wound dressings may interact with wound macrophages. Alginate fibres taken from four commercially available dressings were co-cultured with the human histiocytic lymphoma cell line U937 following its differentiation with PMA. Activation was assessed by measurement of TNFalpha production. Two of the dressings, Seasorb and Tegagen, had a minimal effect whilst Sorbsan at 1 mg/ml induced 302 + 19 pg/ml TNFalpha. This effect was inhibited by polymyxin B indicating that activation was due to endotoxin contamination. Kaltostat induced production of 839 + 36 pg/ml TNFalpha. This effect was induced both by polymyxin inhibitable endotoxin and a direct interaction with the alginate fibres. These data indicate that some alginate containing dressings have the potential to activate macrophages within the chronic wound bed and generate a pro-inflammatory signal which may initiate a resolving inflammation characteristic of healing wounds.     

Human endothelial cell-based assay for endotoxin as sensitive as the conventional Limulus Amebocyte Lysate assay

Endotoxin, also known as lipopolysaccharide (LPS) produced by bacteria can be present in any liquid or on any biomaterial even if the material is sterile. Endotoxin in mammals can cause fever, inflammation, cell and tissue damage and irreversible septic shock and death. In the body, endothelial cells making up the blood vasculature and endothelial cells in vitro rapidly react to minute amounts of endotoxin resulting in a rapid induction of the cell adhesion molecule E-selectin. In this study we have used immunofluorescent staining to evaluate the expression of E-selectin on human microvascular endothelial cells from the skin (HDMEC) and human umbilical vein endothelial cells (HUVEC) exposed to various concentrations of LPS. In addition, the sensitivity of detection was compared with the most widely used assay for the presence of endotoxin, the Limulus Amebocyte Lysate assay (LAL). The detection of E-selectin on endothelial cells in the presence of LPS for 4 h was found to be at least as sensitive in detecting the same concentration using the LAL assay. A cell adhesion molecule-enzyme immunosorbent assay was also developed and used to quantify LPS using the endothelial cell model. A comparison of LAL and the immunofluorescent staining method was carried out with solutions, nanoparticles, biomaterial extracts and endothelial cells grown directly on biomaterials. Under all conditions, the endothelial/E-selectin model system was positive for the test samples that were positive by LAL. Thus, we propose the use of this highly sensitive, rapid, reproducible assay for the routine testing of endotoxin in all steps in the manufacturing process of materials destined for use in humans. This can give a rapid feedback and localization of bacterial contamination sources with the LAL being reserved for the testing of the final product.     

Human leukocytic pyrogen test for detection of pyrogenic material in growth hormone produced by recombinant Escherichia coli.

Human growth hormone is biosynthetically produced in recombinant strains of Escherichia coli as methionyl human growth hormone (met-hGH). When purified from the bacterial culture, met-hGH is biologically active in established assays for growth hormone. Therefore, a phase I trial of met-hGH was carried out in healthy human adults; during the first trial, however, signs, symptoms, and clinical laboratory tests characteristic of an acute-phase response to pyrogenic agents was observed. Prior testing of the met-hGH preparation used in the phase I trial did not reveal evidence of toxicity, and the U.S. Pharmacopeial Convention rabbit pyrogen test, as well as the Limulus amoebocyte lysate (LAL) test, had not detected significant levels of exogenous pyrogens or endotoxin. In addition, standard inhibition studies with added endotoxin showed no inhibition by the LAL test. When this preparation of met-hGH was incubated with human blood mononuclear cells, leukocytic pyrogen (LP) was released into the supernatant medium, suggesting that the preparation contained pyrogenic material. Various lots of met-hGH based on different purification and formulating methods were tested by the human LP assay for contaminating pyrogens. The results of these tests aided in the identification of procedures for met-hGH preparations which did not induce LP in vitro. Thus, subsequent lots of met-hGH which had passed the LP test were used in repeat clinical studies, and no inflammatory or pyrogenic reactions were observed. When the LP test was used, experiments revealed that the original lot of met-hGH was contaminated with endotoxin which had not been detected in the LAL or rabbit pyrogen tests. Lyophilization in glycine-phosphate buffer had resulted in a 10- to 20-fold reduction of endotoxin reactivity in the LAL test and the U.S. Pharmacopeial Convention rabbit pyrogen test. These data provide a probable explanation for the negative result from the LAL and rabbit pyrogen test in the initial lot of met-hGH which induced acute-phase reactions. In addition, these studies demonstrate that the release of LP from human cells is a reliable indicator of the presence of materials that are pyrogenic for humans.     

The detection of endotoxin by in vitro production of endogenous pyrogen: Comparison with limulus amebocyte lysate gelation

The sensitivities of leukocyte endogenous pyrogen (EP) production and limulus amebocyte lysate (LAL) gelation to endotoxin from E. coli (minimum i.v. pyrogenic dose 4 ng/kg in rabbits) were determined. Concentrations of 0.5–1.0 ng/ml could be detected by LAL. The minimum endotoxin concentration which generated detectable EP from 2 × 10⁶ monocytes was 10-fold lower (0.05–0.1 ng/ml). At an endotoxin concentration of 0.4 ng/ml the minimum number of monocytes required for detectable EP production was 5 × 10⁵. It is concluded that the LAL gelation test cannot safely be used to exclude significant endotoxin contamination in a cellular system where EP production is being measured. The same conclusion applies even more forcibly to the in vitro production of lymphocyte activating factor (LAF, interleukin-1), since it appears that LAF and EP are identical and sub-pyrogenic amounts of EP are easily detectable in the LAF assay.     

Structural Decomposition and Heterogeneity of Commercial Lipoteichoic Acid Preparations

Fractionation of commercial preparations of lipoteichoic acids (LTA) by hydrophobic interaction chromatography (HIC) and nuclear magnetic resonance spectroscopy revealed very inhomogeneous compositions and decomposition of the LTA structure: LTA content of the preparations averaged 61% for Streptococcus pyogenes, 16% for Bacillus subtilis, and 75% for Staphylococcus aureus. The decomposition was characterized by a loss of glycerophosphate units as well as alanine and N-acetylglucosamine substituents. All preparations contained-to varying degrees-non-LTA, non-lipopolysaccharide (LPS) immunostimulatory components as indicated by their elution profile in HIC, lack of phosphate, and negative Limulus amoebocyte lysate (LAL) test results. After purification, the commercial LTA from Bacillus subtilis and S. pyogenes but not LTA from S. aureus induced the release of tumor necrosis factor alpha, interleukin 1 beta (IL-1beta), IL-6, and IL-10 in human blood. While pure LTA are negative in the LAL assay, endotoxin equivalents of more than 10 ng of LPS/mg of LTA were found in the commercial preparations. Taken together, these data indicate that these crude preparations with relatively high endotoxin contamination are not suitable for characterizing the activation of immune cells by LTA.     

Mechanism of augmentation of endotoxin fever by beta interferon in rabbits: possible participation of tumor necrosis factor (cachectin).

We analyzed the mechanism of the augmentation of endotoxin fever by human beta interferon (IFN) cross-reacting to rabbit cells in rabbits by using a purified rabbit tumor necrosis factor (RaTNF) and a monoclonal anti-RaTNF. The late peak of fever evoked by the injection with both endotoxin and HuIFN was suppressed when the animals were injected previously with anti-RaTNF. IFN also augmented the pyrogenicity of RaTNF in a synergistic manner in rabbits. The blood collected 2 h after the injection of RaTNF plus IFN contained a significant endogenous TNF activity, and the serum was shown to be pyrogenic. The endogenous pyrogen activity in the 2-h blood was heat stable (70 degrees C, 30 min) and was reduced by the in vitro treatment with anti-RaTNF. These results suggest that IFN augments the febrile response of rabbits to endotoxin by stimulating endogenous TNF-mediated TNF production to induce the late peak of fever.     

Use of Toll-Like Receptor Assays To Detect and Identify Microbial Contaminants in Biological Products

Toll-like receptor (TLR)-expressing cells, for the first time, detected and identified a microbial contaminant in a product made in Escherichia coli using an old manufacturing process. It was suspected of having a microbial contaminant(s) because, although it tested negative by standard pyrogen assays, it was associated with adverse events in early clinical trials. The assay readout is the induction of NF-κB and/or cytokines in response to TLR activation. Four coded samples, labeled A to D, including a sample prepared by the older manufacturing process, were submitted. The cell lines were activated only by samples B and D. Sample D stimulated only Mono-Mac 6 and HEK-human TLR4 (hTLR4) cells and was later identified as lipopolysaccharide. Except for TLR3 cells, sample B stimulated cells bearing the different TLRs (TLRs 2, 4, 5, 7, 8, and 9) and nontransfected HEK293 cells. These data suggested that flagellin was the microbial contaminant, since TLR5, the receptor for flagellin, is known to be expressed constitutively on HEK293 cells. Moreover, purified flagellin from Salmonella enterica serovar Typhimurium behaved like sample B, stimulating HEK293 and HEK-hTLR5 cells but not HEK-hTLR3 cells, and this stimulation by flagellin and sample B was blocked by an anti-hTLR5 neutralizing antibody. Western blots showed bands positive for flagellin and sample B with the molecular sizes expected for the flagellins from S. Typhimurium and E. coli, respectively. Mass spectrometry data were consistent with the presence of flagellin in the manufacturer''s sample B. Taken together, these data indicate that the microbial contaminant in sample B was flagellin and may have been associated with adverse events when the recombinant product was administered.Biological products, including cellular and acellular vaccines, cells used in gene therapy, and plasma-derived and recombinant proteins, can become contaminated with many different types of organisms, e.g., gram-positive and gram-negative bacteria, fungi, viruses, parasites, and their by-products, during manufacturing. When the product is administered to a patient, these microbial contaminants may cause unwanted side effects, such as by inducing inflammation due to the release of cytokines or by acting as adjuvants that can potentially enhance the immunogenicity of a therapeutic protein.Traditionally, biological products are tested during the manufacturing process and at the time of lot release by the in vivo rabbit pyrogen test (RPT) and by the in vitro bacteria endotoxin test, commonly referred to as the Limulus amebocyte lysate (LAL) test. The requirement for final container product testing is stated in the U.S. Code of Federal Regulations, Title 21 (2, 3). These tests are designed to detect lipopolysaccharide (LPS), which is a constituent of gram-negative bacteria, or endotoxin and rely on nonhuman systems to predict human responses. Plasma-derived products and acellular vaccines can be sterile filtered before they are filled, and therefore, intact microorganisms can be removed. However, other microbial constituents, such as those derived from cell walls and nucleic acids (DNA and RNA), can evade filters and still end up in the final product. Recombinant proteins made in Escherichia coli, yeasts, or cell lines may also contain trace levels of host impurities, such that the final product may contain microbial components. These constituents may be difficult to detect by traditional methods.Recent studies have revealed that microbial pathogens possess specific pathogen-associated molecular patterns (13). The host innate immune system recognizes these pathogen-associated molecular patterns by using germ line-encoded pattern recognition receptors to elicit immune responses. Toll-like receptors (TLRs) are well-known pattern recognition receptors. Cells of the innate immune system utilize TLRs to detect cell wall components of bacteria, mycoplasma, fungi, and protozoa at the cell surface, whereas bacterial and viral nucleic acids are recognized by TLRs in a specialized intracellular endosomal compartment (12, 15, 26).Recent efforts have focused on the development of an in vitro test system that combines the sensitivity of the LAL test with the wide range of pyrogens detectable by the in vivo RPT. The Interagency Coordinating Committee on the Validation of Alternative Methods (ICCVAM) evaluated the validation status of five in vitro test methods for assessment of the potential pyrogenicity of pharmaceuticals and other products proposed as potential replacements for the in vivo RPT (10). The ICCVAM proposed in vitro pyrogen tests that use enzyme-linked immunosorbent assays (ELISAs) for interleukin-1β (IL-1β) or IL-6 to measure increased levels of cytokine release when human blood cells, i.e., whole blood (WB), isolated monocytes, and a Mono-Mac 6 (MM6) cell line, are stimulated by endotoxin. On the basis of the findings of two published international validation studies, these five proposed in vitro pyrogenicity test methods are WB/IL-1β, WB/IL-6, peripheral blood mononuclear cell/IL-6, MM6/IL-6, and cryopreserved WB/IL-1β (4, 9, 11, 19).Armed with the knowledge of the critical role of TLRs in microbial detection as well as the need to avoid such issues as donor variability and the hazards associated with human blood products, our approach was to develop an assay that utilized cell lines expressing different TLRs. This was accomplished by using a panel of HEK293 cells transfected with different human TLRs. Initially, a screening test is performed by using the MM6 cell line. Previously, it was shown that MM6 cells respond to ligands to TLR2 and TLR4 (27). On the basis of the data presented in that paper, MM6 cells also respond to the TLR5 ligand flagellin but not to the TLR3, TLR7, TLR8, or TLR9 ligand. If a product sample tests positive with MM6 cells, then cell lines with more restricted TLR expression are used as detector cells to characterize the microbial ligand and, in turn, its microbial origin.Here we show the utility of this approach for the detection of a microbial contaminant in a sample obtained from a process used to make a recombinant product that had passed the standard lot release testing but that was associated with adverse events in humans. Not only was the panel of TLR-bearing cell lines able to detect a strong proinflammatory signal in the product, but also its use facilitated the identification of the microbial constituent at the molecular level.     

Development of alginate wound dressings linked with hybrid peptides derived from laminin and elastin

We designed hybrid peptides, SIRVXVXPG (X: A or G), from a laminin-derived peptide, SIKVAV, and an elastin-derived peptide, VGVAPG, and tried to develop new alginate dressings linked covalently with the hybrid peptides. First, we examined the effectiveness of the hybrid peptides for cell attachment and proliferation using normal human dermal fibroblasts (NHDF) in vitro. The hybrid peptides promoted attachment of NHDF, whereas neither Ac-KSIKVAV nor Ac-KVGVAPG promoted attachment. Although all the peptides we examined promoted the proliferation of NHDF to some extent, the hybrid peptide-coated plates showed strong NHDF proliferative activity, compared with the other peptide. Next, we created alginate dressings linked with some of these peptides and examined their effectiveness in wound healing using a rabbit ear skin defect model in vivo. Nine days after operation, ears with the alginate dressings linked with the hybrid peptides showed significantly greater epithelialization and a larger volume of regenerated tissue compared to those treated with SIVAV-linked, VGVAPG-linked and unlinked alginate dressings. These new alginate dressings linked with the hybrid peptides could be promising dressings especially for wounds with impaired healing.     

Legionella species of different human prevalence induce different rates of apoptosis in human monocytic cells

Legionella species of different human prevalence were examined with respect to induction of apoptosis in the human monocytic cell line Mono Mac 6 (MM6). L. pneumophila serogroup 1 (Pontiac), L. pneumophila serogroup 1 (Philadelphia-1), L. longbeachae serogroup 1, L. gormanii, L. micdadei and L. steigerwaltii were used to infect MM6 cells. Subsequent induction of apoptosis was investigated by enzyme-linked immunosorbent assay (ELISA), gel electrophoresis of cellular DNA extracts, and staining of cells with the DNA dye 4', 6-diamidino-2-phenylindole (DAPI). Additionally, the concomitant occurrence of infection and apoptosis was demonstrated by a combination of immunohistochemistry with nuclear DAPI counterstaining. Induction of apoptosis in MM6 cells by a given species of the genus Legionella correlates with their human prevalence rather than with their ability to multiply within this human monocytic cell line. Furthermore, we found that initiation of apoptosis of Mono Mac 6 cells was dependent on direct adherence of the pathogenic bacteria to the host cell and was triggered by extracellular bacteria.     

Augmentation of endotoxin fever by recombinant human beta interferon in rabbits.

Nonpyrogenic amounts of endotoxin (0.1 to 1 ng/kg), hardly detectable by conventional Limulus amoebocyte lysate tests, could produce a fever of around 1 degree C when injected with a nonpyrogenic dose (6 X 10(5) U/kg) of recombinant human beta interferon (IFN-beta) in rabbits. Release of endogenous IFN and tumor necrosis factor by endotoxin was also dramatically increased by recombinant human IFN-beta, and their levels in the blood were closely correlated with the increase of body temperature. These data suggest, if the synergism between IFN and endotoxin also operates in the homologous system (human IFN-human cells), that contaminating endotoxin in IFNs, even if not detectable by Limulus amoebocyte lysate test, can contribute to IFN fever to a considerable extent in humans.     

New microassay for quantitation of endotoxin using Limulus amebocyte lysate combined with enzyme-linked immunosorbent assay.

A combined method of the Limulus amebocyte lysate (LAL) test and the enzyme-linked immunosorbent assay for quantitation of endotoxin was developed based on our observation that the antigenicity of coagulogen, a major protein in LAL, was lost when LAL reacted with endotoxin as shown by immunoblotting. Determination of the residual coagulogen by an enzyme-linked immunosorbent assay system with monoclonal antibody against coagulogen revealed that the loss of the antigenicity of coagulogen was proportional to the concentration of endotoxin. An inverse linear curve was established between the endotoxin concentration and absorbance. Standard curves of the LAL enzyme-linked immunosorbent assay with different detection limits (from 0.1 to 100 pg of the control standard endotoxin per ml) were obtained from one batch of commercial LAL by adjusting incubation time and dilution of LAL. The reaction curves of various endotoxins were parallel to one another, whereas the kinetics differed from that of (1-3)-beta-D-glucan. The LAL enzyme-linked immunosorbent assay is a highly reproducible microassay, using only 10 microliter of test sample and LAL reagent; because the color and turbidity of plasma samples do not interfere with the assay, it is well suited for quantitation of endotoxins in clinical specimens.     

甘氨酸对内毒素致热性的抗拮作用研究

本研究用新西兰家兔４２只，分为７组，观察不同剂量甘氨酸对内毒素致热性的灭活效果。     

Cytotoxicity testing of wound dressings using normal human keratinocytes in culture

Comparative cytotoxicity testing of 16 wound dressings of different composition show that normal human keratinocytes (NHK) growing on a fibroblastic feeder layer are as sensitive to toxic materials by direct contact as the confluent MRC5 fibroblasts used for standard cell culture cytotoxicity testing, and slightly more sensitive when extracts of the dressings were tested. After direct contact with each of the cell types, we found effects due to 12 dressing samples (75%), but the extracts of only 6 of them induced changes in cell shape or cell death on NHK, and 4 of them on MRC5 cells. In order to assess the compatibility of these dressings with a pure population of epidermal cells, the cell type responsible for reepidermization of healing wounds, we then tested the sensitivity, both to dressing samples and extracts, of normal human keratinocytes (NHK) grown in chemically defined medium and without a feeder layer: The results show epidermal cytocompatibility of 10 dressing extracts, while 6 others induced cytopathic effects. Three of these extracts specifically damaged epidermal cells and inhibited their proliferation. When comparing the sensitivities of NHK (in defined medium) and MRC5 cells, we observed complete correlation for 75% of the dressings by extract testing and in 94% of the cases after direct contact.     

Differential blocking of coagulation-activating pathways of Limulus amebocyte lysate.

The coagulation of Limulus amebocyte lysate (LAL) can be activated through two pathways, one initiated by endotoxin and the other by beta-glucans. The two pathways join at the step of activation of the proclotting enzyme. We report here that the endotoxin-activated pathway can be differentially inhibited by two methods in a Limulus enzyme-linked immunosorbent assay (ELISA), either by the combined use of dimethyl sulfoxide and polymyxin B or by a monoclonal antibody against Limulus factor C. LAL reactivities to 10 different endotoxin preparations could be inhibited by the former method by a factor of 10(4) to 10(6) and could be blocked almost totally by the latter method, irrespective of the source of endotoxin. The sensitivity of the assay was approximately 50 pg/ml both for curdlan from Alcaligenes faecalis and for laminarin from Laminaria digitata. We also found that the beta-glucan-activated pathway could be totally blocked by laminarin (> 1 microgram/ml) without affecting the endotoxin-activated pathway, allowing endotoxin to be quantitated specifically by the Limulus ELISA with a detection limit of 0.005 endotoxin unit per ml. The use of uninhibited and differentially inhibited ELISAs demonstrated that different LAL preparations showed much greater variation in assaying beta-glucans than in assaying endotoxins. The LAL reactivity of normal human plasma was found to be due to the activation of the beta-glucan pathway, but not the endotoxin pathway, of LAL.