A novel C5a-derived immunobiotic peptide reduces Streptococcus agalactiae colonization through targeted bacterial killing.

Streptococcus agalactiae (group B Streptococcus [GBS]) is a Gram-positive bacterium that colonizes the cervicovaginal tract in approximately 25% of healthy women. Although colonization is asymptomatic, GBS can be vertically transmitted to newborns peripartum, causing severe disease such as pneumonia and meningitis. Current prophylaxis, consisting of late gestation screening and intrapartum antibiotics, has failed to completely prevent transmission, and GBS remains a leading cause of neonatal sepsis and meningitis in the United States. Lack of an effective vaccine and emerging antibiotic resistance necessitate exploring novel therapeutic strategies. We have employed a host-directed immunomodulatory therapy using a novel peptide, known as EP67, derived from the C-terminal region of human complement component C5a. Previously, we have demonstrated in vivo that EP67 engagement of the C5a receptor (CD88) effectively limits staphylococcal infection by promoting cytokine release and neutrophil infiltration. Here, using our established mouse model of GBS vaginal colonization, we observed that EP67 treatment results in rapid clearance of GBS from the murine vagina. However, this was not dependent on functional neutrophil recruitment or CD88 signaling, as EP67 treatment reduced the vaginal bacterial load in mice lacking CD88 or the major neutrophil receptor CXCr2. Interestingly, we found that EP67 inhibits GBS growth in vitro and in vivo and that antibacterial activity was specific to Streptococcus species. Our work establishes that EP67-mediated clearance of GBS is likely due to direct bacterial killing rather than to enhanced immune stimulation. We conclude that EP67 may have potential as a therapeutic to control GBS vaginal colonization.

An agonist of human complement fragment C5a enhances vaccine immunity against Coccidioides infection.

Coccidioides is a fungal pathogen and causative agent of a human respiratory disease against which no clinical vaccine exists. In this study we evaluated a novel vaccine adjuvant referred to as EP67, which is a peptide agonist of the biologically active C-terminal region of human complement component C5a. The EP67 peptide was conjugated to live spores of an attenuated vaccine strain (ΔT) of Coccidioides posadasii. The non-conjugated ΔT vaccine provided partial protection to BALB/c mice against coccidioidomycosis. In this report we compared the protective efficacy of the ΔT-EP67 conjugate to the ΔT vaccine in BALB/c mice. Animals immunized subcutaneously with the ΔT-EP67 vaccine showed significant increase in survival and decrease in fungal burden over 75 days postchallenge. Increased pulmonary infiltration of dendritic cells and macrophages was observed on day 7 postchallenge but marked decrease in neutrophil numbers had occurred by 11 days. The reduced influx of neutrophils may have contributed to the observed reduction of inflammatory pathology. Mice immunized with the ΔT-EP67 vaccine also revealed enhanced expression of MHC II molecules on the surface of antigen presenting cells, and in vitro recall assays of immune splenocytes showed elevated Th1- and Th17-type cytokine production. The latter correlated with a marked increase in lung infiltration of IFN-γ- and IL-17-producing CD4(+) T cells. Elevated expression of T-bet and RORc transcription factors in ΔT-EP67-vaccinated mice indicated the promotion of Th1 and Th17 cell differentiation. Higher titers of Coccidioides antigen-specific IgG1 and IgG2a were detected in mice immunized with the EP67-conjugated versus the non-conjugated vaccine. These combined results suggest that the EP67 adjuvant enhances protective efficacy of the live vaccine by augmentation of T-cell immunity, especially through Th1- and Th17-mediated responses to Coccidioides infection.

Control of methicillin resistant Staphylococcus aureus infection utilizing a novel immunostimulatory peptide.

The emergence of community-acquired methicillin-resistant Staphylococcus aureus (CA-MRSA) is a serious health concern worldwide that requires new therapeutic approaches that extend beyond the development and use of new antibiotics. In this study, a conformationally biased, response-selective agonist of human C5a, known as EP67, was used to induce host innate immunity as a therapeutic method of reducing CA-MRSA infections. Using a murine model of dermonecrosis we show that EP67 treatment effectively limits CA-MRSA infection by promoting cytokine synthesis and neutrophil influx. In contrast, EP67 was ineffective in reducing lesion formation in C5a receptor (CD88(-/-)) knockout mice, indicating that EP67 activates host innate immunity by engagement of CD88 bearing cells. These results suggest that EP67 may serve as a novel immunotherapeutic for prevention and treatment of CA-MRSA dermal infection.

A novel adjuvant for vaccine development in the aged.

A conformationally-biased, response-selective agonist of human C5a(65-74) (EP67) activated antigen presenting cells (APC) from aged C57Bl/6 mice in vitro and the generation of antigen (Ag)-specific antibody (Ab) responses in aged mice in vivo. EP67, induced the release of the pro-inflammatory cytokines IL-6, TNFα, and INFγ from splenic APCs obtained from both aged and young mice. Both aged and young mice produced high Ag-specific IgG Ab titers when immunized with EP67-containing vaccines to ovalbumin (OVA-EP67) and to a protein (rPrp1) from the cell wall of Coccidioides (rPrp1-EP67). Immunization with EP67-containing vaccines resulted in higher IgG titers in both young and aged mice compared to mice immunized with OVA adsorbed to alum (OVA/alum) and Prp1 admixed with CpG (rPrp1 +CpG). Aged and young mice immunized with the EP67-containing vaccines generated higher titers of IgG1 and IgG2b relative to their aged-matched counterparts immunized with OVA/alum or Prp1 +CpG. These results indicate that EP67 induces humoral immunity in aged mice not obtainable with alum and CpG. These results support the use of EP67 as a potential vaccine adjuvant suited to the elderly.

Single-step conjugation of bioactive peptides to proteins via a self-contained succinimidyl bis-arylhydrazone.

This paper describes a method for a single-step, site-specific conjugation of bioactive peptides to proteins that exploits the monitoring advantages provided by the unique UV signature absorbance of a bis-arylhydrazone. The utility of this method is demonstrated by the conjugation of a decapeptide molecular adjuvant, YSFKDMP(MeL)aR (EP67), to two test proteins, ovalbumin (OVA) and bovine serum albumin (BSA), and to proteins expressed on intact influenza virons and fungal arthroconidia (spores) of Coccidioides. Conjugation is accomplished with a version of EP67 in which its N-terminus is modified with succinimidyl-4-benzoylhydrazino-nicotinamide (S4BHyNic) (peptide 7), thus enabling conjugation to these large entities via formation of amide bonds with surface-exposed amino groups. The presence of the strongly absorbing bis-arylhydrazone S4BHyNic (ε(354 nm) = 29 000 L mol(-1) cm(-1)) allows for determination of EP67-to-protein molar substitution ratios (MSR), which are in good agreement with the MSRs determined by amino acid analysis. Conjugation to OVA does not compromise the ability of EP67 to engage C5a receptor bearing antigen presenting cells (APC) as measured by the EP67-mediated release of interleukin-6 (IL-6) from APCs. Mice immunized with the resulting OVA-EP67 vaccine conjugate produce high serum titers of OVA-specific IgG antibodies relative to OVA alone. Also, the conjugation of EP67 does not affect the surface integrity of influenza virons or the biological viability of Coccidioides spores. This method of conjugating bioactive peptides to proteins and other large biological entities may represent a convenient and effective way of generating various bioconjugates for use in mechanistic studies or novel therapeutic entities such as EP67-containing vaccines.

Enhancement of in vivo and in vitro immune functions by a conformationally biased, response-selective agonist of human C5a: implications for a novel adjuvant in vaccine design.

A conformationally biased, agonist of human C5a(65-74) (EP67) was assessed for its adjuvant activities in vitro and in vivo. EP67 induced the release of the inflammatory (Th1) type cytokines from C5a receptor (CD88)-bearing antigen presenting cells (APC). EP67 did not induce the release of these cytokines from splenic APCs obtained from C5a receptor knockouts (CD88(-/-)). Serum from mice immunized with EP67-ovalbumin (OVA) contained high OVA-specific antibody (Ab) titers [IgG1, IgG2a (IGg2c), IgG2b]. Mice receiving OVA alone produced only IgG1 Abs, indicating the ability of EP67 to induce a Th1-like Ab class switch. Spleen cell cultures from wild type mice but not CD88(-/-) mice showed an enhanced OVA-specific proliferative response in vitro. These results indicate the ability of EP67 to drive a Th1-mediated immune response and its potential use as a unique adjuvant.