Beth L. Hahn

Zinc-Reversible Antimicrobial Activity of Recombinant Calprotectin (Migration Inhibitory Factor—Related Proteins 8 and 14)

Recombinant calprotectin, consisting of 2 individual peptide chains also called migration inhibitory factor-related protein (MRP)-8 and MRP14, was tested for antimicrobial activity in a Candida albicans growth inhibition assay. Both chains contain HEXXH zinc-binding sites and might be expected to manifest zinc-reversible, antimicrobial activity similar to that of native calprotectin. When tested alone, neither MRP8 nor MRP14 showed activity in the Candida growth assay. A synthetic 20-amino acid peptide containing the HEXXH sequence of MRP14, along with a nearby HHH sequence, was also inactive in this assay. However, equimolar concentrations of MRP8 and MRP14 demonstrated a potent growth inhibitory effect that was reversible by 30 microM zinc. Truncated MRP14 (missing the C-terminal GHHHKPGLGEGTP tail) used in combination with MRP8 demonstrated zinc-reversible activity that was somewhat less than that with complete MRP14. These results suggest that intact calprotectin, consisting of a heterodimer of MRP8 and MRP14, is necessary to form a zinc-binding site capable of inhibiting microbial growth.

Histidine-Based Zinc-Binding Sequences and the Antimicrobial Activity of Calprotectin

Calprotectin is a protein in neutrophil cytoplasm and abscess fluids that appears to inhibit microbial growth through competition for zinc. This study was undertaken to identify specific sites that might be responsible for the proteins zinc-binding antimicrobial activity. A review of published calprotectin amino acid sequences revealed the HEXXH motif of thermolysin-type metalloproteases and an HHH polyhistidine sequence near the C-terminus of the proteins heavy chain. Reagent polyhistidine had antimicrobial activity against Candida albicans similar to that of calprotectin. Also, one type of HEXXH-containing thermolysin was inactive in the C. albicans assay, whereas a protein tagged with six C-terminal histidines did have calprotectin-like zinc-reversible antimicrobial activity. The activity of polyhistidine, as well as that of calprotectin itself, was reversed by addition of zinc or treatment with the histidine-modifying compound diethylpyrocarbonate. These results suggest that calprotectins antimicrobial activity may be related to certain histidine-based zinc-binding sequences.

Epidermal proliferation and the neutrophilic infiltrates of experimental cutaneous candidiasis in mice

SummaryA mouse model of cutaneous candidiasis was used to determine if the prominent neutrophilic infiltrates in the infected skin of nonimmune animals were responsible for inducing the early phase of epidermal proliferation seen in these infections. Both the organisms and resulting neutrophilic microabscesses were found in the cellular layers of the epidermis at 12 h after inoculation, and were then extruded together to a more superficial site in the stratum corneum over the next 1–2 days. The degree of epidermal proliferation elicited at the site of the Candida foci, as determined from the thickness of the cellular layers of the epidermis, was the same for foci with neutrophils as for those without, even when the latter came from severely leukopenic animals. The location of neutrophils within the infected skin or the numbers of organisms present did not seem to make a difference with respect to the degree of epidermal proliferation produced at the site of Candida foci. These data suggest that in acute experimental cutaneous Candida infections the organisms can elicit a vigorous epidermal proliferative response in the absence of the neutrophilic infiltrates usually seen in these infections.

Characteristics of Spore Germination in a Mouse Model of Cutaneous Anthrax

BACKGROUND Cutaneous infection is the most common form of human anthrax, but little is known about Bacillus anthracis spore germination in these infections. METHODS We used experimental inoculations of B. anthracis Sterne spores or vegetative bacilli onto intact or abraded mouse flank skin, followed by evaluation of the infections and enumeration of germinating spores and vegetative bacilli. RESULTS Bacilli developed from a spore inoculum after application onto abraded, but not intact, skin of the mice. Germination appeared to occur extracellularly at the skin surface before the development of a phagocytic response; in fact, vegetative bacilli were seen after inoculation of the spores on top of a filter that separated them from the host phagocytic cells below. Malachite green staining demonstrated that spores began germinating 1-3 h after inoculation onto abraded skin. Vegetative bacilli were found not to be capable of initiating infection in the absence of cutaneous abrasion. CONCLUSIONS The results indicate that epidermal damage is required for germination of B. anthracis spores in these infections; even so, spore germination by itself is not sufficient to produce infection of undamaged skin. In contrast to events in experimental inhalational anthrax, spore germination in these cutaneous infections appears to occur extracellularly.

Identification of cell-binding adhesins of Leptospira interrogans.

Leptospirosis is a globally distributed bacterial infectious disease caused by pathogenic members of the genus Leptospira. Infection can lead to illness ranging from mild and non-specific to severe, with jaundice, kidney and liver dysfunction, and widespread endothelial damage. The adhesion of pathogenic Leptospira species (spp.), the causative agent of leptospirosis, to host tissue components is necessary for infection and pathogenesis. While it is well-established that extracellular matrix (ECM) components play a role in the interaction of the pathogen with host molecules, we have shown that pathogenic Leptospira interrogans binds to host cells more efficiently than to ECM components. Using in vitro phage display to select for phage clones that bind to EA.hy926 endothelial cells, we identified the putative lipoproteins LIC10508 and LIC13411, and the conserved hypothetical proteins LIC12341 and LIC11574, as candidate L. interrogans sv. Copenhageni st. Fiocruz L1–130 adhesins. Recombinant LIC11574, but not its L. biflexa homologue LBF1629, exhibited dose-dependent binding to both endothelial and epithelial cells. In addition, LIC11574 and LIC13411 bind to VE-cadherin, an endothelial cell receptor for L. interrogans. Extraction of bacteria with the non-ionic detergent Triton X-114 resulted in partitioning of the candidate adhesins to the detergent fraction, a likely indication that these proteins are outer membrane localized. All candidate adhesins were recognized by sera obtained from leptospirosis patients but not by sera from healthy individuals as assessed by western blot. This work has identified bacterial adhesins that are potentially involved in L. interrogans infection of the mammalian host, and through cadherin binding, may contribute to dissemination and vascular damage. Our findings may be of value in leptospirosis control and prevention, with the bacterial adhesins potentially serving as targets for development of diagnostics, therapeutics, and vaccines.

Integrin binding by Borrelia burgdorferi P66 facilitates dissemination but is not required for infectivity.

P66, a Borrelia burgdorferi surface protein with porin and integrin‐binding activities, is essential for murine infection. The role of P66 integrin‐binding activity in B. burgdorferi infection was investigated and found to affect transendothelial migration. The role of integrin binding, specifically, was tested by mutation of two amino acids (D205A,D207A) or deletion of seven amino acids (Del202–208). Neither change affected surface localization or channel‐forming activity of P66, but both significantly reduced binding to αvβ3. Integrin‐binding deficient B. burgdorferi strains caused disseminated infection in mice at 4 weeks post‐subcutaneous inoculation, but bacterial burdens were significantly reduced in some tissues. Following intravenous inoculation, the Del202–208 bacteria were below the limit of detection in all tissues assessed at 2 weeks post‐inoculation, but bacterial burdens recovered to wild‐type levels at 4 weeks post‐inoculation. The delay in tissue colonization correlated with reduced migration of the Del202–208 strains across microvascular endothelial cells, similar to Δp66 bacteria. These results indicate that integrin binding by P66 is important to efficient dissemination of B. burgdorferi, which is critical to its ability to cause disease manifestations in incidental hosts and to its maintenance in the enzootic cycle.

Use of a microtiter plate assay to detect the rate of killing of adherent Candida albicans by antifungal agents

OBJECTIVES Candida albicans may become adherent to prosthetic devices of various kinds and thereby produce infections that are difficult to treat with standard antifungal therapy. The objective of the present work was to study the effectiveness of antifungal agents against adherent C. albicans yeast cells. STUDY DESIGN A microtiter plate assay was developed to assess the time required for killing of the fungal cells by three antifungal agents. RESULTS The assay initially was validated by demonstrating that the percentage of organisms adhering to the test wells was relatively constant and that exposure to the antifungal agents caused only minimal dislodgement of viable organisms from the plates. In studies that used this assay to determine the time required for killing the adherent yeast cells, chlorhexidine was found to be the most effective; in fact, in comparing the minimal lethal concentrations of the agents for exposures of 2 minutes versus 4 hours, a ratio of 2.9 was obtained for chlorhexidine versus 1050 for amphotericin B and 556 for nystatin. CONCLUSION The microtiter plate assay used in these studies may therefore be useful as a screening test to determine which antifungal agents have the most rapid fungicidal effects on adherent fungal organisms.

Systemic dissemination and cutaneous damage in a mouse model of staphylococcal skin infections

Serious staphylococcal infections frequently begin in the skin. The present study used a mouse model of such infections to evaluate the ability of Staphylococcus aureus to disseminate from the skin and to determine if cutaneous damage from the infections was required for dissemination. The mice were inoculated with S. aureus onto flank skin prepared by a tape-stripping method that caused minimal disruption of the epidermal keratinocyte layers. After these inoculations the staphylococci were found to disseminate to the spleen and kidneys of almost all animals within 6h. Induction of leucopenia did not affect this process. Cutaneous damage was prominent in these experimental infections and included loss of the epidermis, neutrophil infiltration into the epidermis, and complete necrosis of the dermis. The latter also occurred in cyclophosphamide-treated animals, indicating that the organisms themselves and not the host inflammatory responses were responsible. Dermal necrosis did not develop until 48h after inoculation, a time by which dissemination had already occurred. Therefore, in this mouse model system S. aureus is capable of penetrating the epidermal keratinocyte layers and disseminating rapidly after inoculation; the experimental infections do produce significant dermal damage, but the latter develops after dissemination has already taken place.

Evaluation of Cell Binding Activities of Leptospira ECM Adhesins

Pathogenic spirochetes of the genus Leptospira are the causative agents of leptospirosis, a zoonotic infection that occurs globally. The bacteria colonize the renal proximal tubules of many animals and are shed in the urine. Contact with the urine, or with water contaminated with the urine of infected animals can cause infection of new host animals, including humans. Mechanisms of colonization of the proximal tubule and other tissues are not known, but specific interactions between bacterial adhesins and host substrates are likely to be critical in this process. Several extracellular matrix (ECM) adhesins have been previously identified, but more recently, it has been shown that Leptospira bind more efficiently to cells than ECM. In this work, recombinant forms of five putative Leptospira ECM adhesins, namely LipL32, Loa22, OmpL1, p31/LipL45, and LenA were evaluated for binding to cells as well as an expanded variety of ECM components. Reproducible and significant adhesin activity was demonstrated only for OmpL1, which bound to both mammalian cell lines tested and to glycosaminoglycans (GAGs). While determination of biologically significant bacterial adhesion activity will require generation of site-directed mutant strains, our results suggest that OmpL1 is a strong candidate for future evaluation regarding the roles of the adhesin activity of the protein during L. interrogans infection.

Comparison of the metal-binding anticandidal activities of serum and abscess fluid supernatants

Serum transferrin appears to play a role in host defense by competing with invading microorganisms for iron. The purpose of the present study was to compare this activity to a similar one recently described in abscess fluids and based on a calcium- and zinc-binding protein called calprotectin. Serum and abscess fluid supernatants were collected and pooled from groups of five to 10 C57BL/6 mice with experimental Candida albicans abscesses; serum was also collected from normal animals. In four experiments, serum was found to reduce in vitro C. albicans growth in Sabouraud glucose broth by a mean of 97.9% at 10 mg ml-1 of protein; this effect was reversed by adding 3-10 microM FeCl3, but not by similar amounts of ZnSO4. Abscess fluid supernatants had a greater effect, reducing growth by 99.9% at 1 mg ml-1 and 76.1% at 0.1 mg ml-1 of total protein; this effect was reversed by 3-10 microM ZnSO4, but not FeCl3. Although abscess fluid supernatants were effective when high inocula (10,000 yeast cells) were used, serum from the infected mice inhibited growth only with lower inocula (10-100 yeast cells). In a separate study, serum from infected mice (eight pools) reduced growth (by a range of 36 to 97%), whereas serum from normal mice (five pools) actually enhanced growth in this system (by a range of 173 to 595%).(ABSTRACT TRUNCATED AT 250 WORDS)