Joy A. Phillips

IL-7 gene therapy in aging restores early thymopoiesis without reversing involution.

Thymic involution begins early in life and continues throughout adulthood, resulting in a decreased population of naive T cells in the periphery and a reduced ability to fight off newly encountered infectious diseases. We have previously shown that the first step of thymopoiesis is specifically blocked in aging. This block at the DN1 to DN2 transition and the subsequent loss of thymic output in old age mirrors the changes seen in IL-7-deficient mice, and it is hypothesized that decreased intrathymic IL-7 is involved in age-related thymic involution. To separate the effect of IL-7 on thymic involution from its function as a peripheral lymphocyte growth cofactor, we injected IL-7-secreting stromal cells into the thymi of recipient mice. The increased local concentration of IL-7 maintained the first step of thymopoiesis at a level far higher than was seen in age-matched controls. However, despite this success, there was no decrease in thymic involution or increase in T cell output. The inability of IL-7 to prevent involution led us to the discovery of an additional age-sensitive step in thymopoiesis, proliferation of the DN4 population, which is unaffected by IL-7 expression.

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.

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.

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.

Innate immune induction and influenza protection elicited by a response-selective agonist of human C5a.

The anaphylatoxin C5a is an especially potent mediator of both local and systemic inflammation. However, C5a also plays an essential role in mucosal host defense against bacterial, viral, and fungal infection. We have developed a response-selective agonist of human C5a, termed EP67, which retains the immunoenhancing activity of C5a at the expense of its inflammatory, anaphylagenic properties. EP67 insufflation results in the rapid induction of pulmonary cytokines and chemokines. This is followed by an influx of innate immune effector cells, including neutrophils, NK cells, and dendritic cells. EP67 exhibits both prophylactic and therapeutic protection when tested in a murine model of influenza A infection. Mice treated with EP67 within a twenty-four hour window of non-lethal infection were significantly protected from influenza-induced weight loss. Furthermore, EP67 delivered twenty-four hours after lethal infection completely blocked influenza-induced mortality (0% vs. 100% survival). Since protection based on innate immune induction is not restricted to any specific pathogen, EP67 may well prove equally efficacious against a wide variety of possible viral, bacterial, and fungal pathogens. Such a strategy could be used to stop the worldwide spread of emergent respiratory diseases, including but not limited to novel strains of influenza.

Preliminary evidence that the novel host-derived immunostimulant EP67 can act as a mucosal adjuvant

EP67 is a complement component 5a (C5a)-derived peptide agonist of the C5a receptor (CD88) that selectively activates DCs over neutrophils. Systemic administration of EP67 covalently attached to peptides, proteins, or attenuated pathogens generates TH1-biased immunogen-specific humoral and cellular immune responses with little inflammation. Furthermore, intranasal administration of EP67 alone increases the proportion of activated APCs in the airways. As such, we hypothesized that EP67 can act as a mucosal adjuvant. Intranasal immunization with an EP67-conjugated CTL peptide vaccine against protective MCMV epitopes M84 and pp89 increased protection of naïve female BALB/c mice against primary respiratory infection with salivary gland-derived MCMV and generated higher proportions of epitope responsive and long-lived memory precursor effector cells (MPEC) in the lungs and spleen compared to an inactive, scrambled EP67-conjugated CTL peptide vaccine and vehicle alone. Thus, EP67 may be an effective adjuvant for mucosal vaccines and warrants further study.

Pharmacological Stimulation of Phagocytosis Enhances Amyloid Plaque Clearance; Evidence from a Transgenic Mouse Model of ATTR Neuropathy

Hereditary ATTR V30M amyloidosis is a lethal autosomal dominant sensorimotor and autonomic neuropathy caused by deposition of aberrant transthyretin (TTR). Immunohistochemical examination of sural nerve biopsies in patients with amyloidotic neuropathy show co-aggregation of TTR with several proteins; including apolipoprotein E, serum amyloid P and components of the complement cascade. Complement activation and macrophages are increasingly recognized to play a crucial role in amyloidogenesis at the tissue bed level. In the current study we test the effect of two C5a receptor agonists and a C5a receptor antagonist (PMX53) on disease phenotype in ATTR V30M mice. Our results indicate that amyloid deposition was significantly reduced following treatment with the C5a receptor agonists, while treatment with the antagonist resulted in a significant increase of amyloid load. Administration of the C5a receptor agonists triggered increased recruitment of phagocytic cells resulting in clearance of amyloid deposits.