Uterine B cells exhibit regulatory properties during the peri-implantation stage of murine pregnancy

A successful outcome to pregnancy is dependent on the ability of the maternal uterine microenvironment to regulate inflammation processes and establish maternal tolerance. Recently, B cells have been shown to influence pregnancy outcomes as aberrations in their numbers and functions are associated with obstetric complications. In this study, we aimed to comprehensively examine the population frequency and phenotypic profile of B cells over the course of murine pregnancy. Our results demonstrated a significant expansion in B cells within the uterus during the peri-implantation period, accompanied by alterations in B cell phenotype. Functional evaluation of uterine B cells purified from pregnant mice at day 5.5 post-coitus established their regulatory capacity as evidenced by effective suppression of proliferation and activation of syngeneic CD4+ T cells. Flow cytometric analysis revealed that the uterine B cell population has an expanded pool of IL-10-producing B cells bearing upregulated expression of co-stimulatory molecules CD80 and CD86 and activation marker CD27. Our investigations herein demonstrate that during the critical stages surrounding implantation, uterine B cells are amplified and phenotypically modified to act in a regulatory manner that potentially contributes toward the establishment of maternal immunological tolerance in early pregnancy.Ruth Marian Guzman-Genuino, Preethi Eldi, Pablo Garcia-Valtanen, John D. Hayball and Kerrilyn R. Diene

Loss of actin-based motility impairs ectromelia virus release in vitro but is not critical to spread in vivo

Ectromelia virus (ECTV) is an orthopoxvirus and the causative agent of mousepox. Like other poxviruses such as variola virus (agent of smallpox), monkeypox virus and vaccinia virus (the live vaccine for smallpox), ECTV promotes actin-nucleation at the surface of infected cells during virus release. Homologs of the viral protein A36 mediate this function through phosphorylation of one or two tyrosine residues that ultimately recruit the cellular Arp2/3 actin-nucleating complex. A36 also functions in the intracellular trafficking of virus mediated by kinesin-1. Here, we describe the generation of a recombinant ECTV that is specifically disrupted in actin-based motility allowing us to examine the role of this transport step in vivo for the first time. We show that actin-based motility has a critical role in promoting the release of virus from infected cells in vitro but plays a minor role in virus spread in vivo. It is likely that loss of microtubule-dependent transport is a major factor for the attenuation observed when A36R is deleted

Aberrant expression of high mobility group box protein 1 in the idiopathic inflammatory myopathies

Introduction: High Mobility Group Box Protein 1 (HMGB1) is a DNA-binding protein that exerts inflammatory or pro-repair effects upon translocation from the nucleus. We postulate aberrant HMGB1 expression in immune-mediated necrotising myopathy (IMNM). Methods: Herein, we compare HMGB1 expression (serological and sarcoplasmic) in patients with IMNM with that of other myositis subtypes using immunohistochemistry and ELISA. Results: IMNM (n = 62) and inclusion body myositis (IBM, n = 14) patients had increased sarcoplasmic HMGB1 compared with other myositis patients (n = 46). Sarcoplasmic HMGB1 expression correlated with muscle weakness and histological myonecrosis, inflammation, regeneration and autophagy. Serum HMGB1 levels were elevated in patients with IMNM, dermatomyositis and polymositis, and those myositis patients with extramuscular inflammatory features. Discussion: Aberrant HMGB1 expression occurs in myositis patients and correlates with weakness. A unique expression profile of elevated sarcoplasmic and serum HMGB1 was detected in IMNM.Jessica Day ... Pravin Hissaria, Susanna Proudman, Vidya Limaye and John D. Hayball ... et al

A vaccinia-based single vector construct multi-pathogen vaccine protects against both Zika and chikungunya viruses

Zika and chikungunya viruses have caused major epidemics and are transmitted by Aedes aegypti and/or Aedes albopictus mosquitoes. The "Sementis Copenhagen Vector" (SCV) system is a recently developed vaccinia-based, multiplication-defective, vaccine vector technology that allows manufacture in modified CHO cells. Herein we describe a single-vector construct SCV vaccine that encodes the structural polyprotein cassettes of both Zika and chikungunya viruses from different loci. A single vaccination of mice induces neutralizing antibodies to both viruses in wild-type and IFNAR-/- mice and protects against (i) chikungunya virus viremia and arthritis in wild-type mice, (ii) Zika virus viremia and fetal/placental infection in female IFNAR-/- mice, and (iii) Zika virus viremia and testes infection and pathology in male IFNAR-/- mice. To our knowledge this represents the first single-vector construct, multi-pathogen vaccine encoding large polyproteins, and offers both simplified manufacturing and formulation, and reduced "shot burden" for these often co-circulating arboviruses.Natalie A. Prow, Liang Liu, Eri Nakayama, Tamara H. Cooper ... Kerrilyn R. Diener ... John D. Hayball .. et al

Shaping the Future of Research: a perspective from junior scientists

The landscape of scientific research and funding is in flux as a result of tight budgets, evolving models of both publishing and evaluation, and questions about training and workforce stability. As future leaders, junior scientists are uniquely poised to shape the culture and practice of science in response to these challenges. A group of postdocs in the Boston area who are invested in improving the scientific endeavor, planned a symposium held on October 2 nd and 3 rd, 2014, as a way to join the discussion about the future of US biomedical research. Here we present a report of the proceedings of participant-driven workshops and the organizers’ synthesis of the outcomes

Transient dominant host-range selection using Chinese hamster ovary cells to generate marker-free recombinant viral vectors from Vaccinia virus

Recombinant vaccinia viruses (rVACVs) are promising antigen-delivery systems for vaccine development that are also useful as research tools. Two common methods for selection during construction of rVACV clones are (i) co-insertion of drug resistance or reporter protein genes, which requires the use of additional selection drugs or detection methods, and (ii) dominant host-range selection. The latter uses VACV variants rendered replication-incompetent in host cell lines by the deletion of host-range genes. Replicative ability is restored by co-insertion of the host-range genes, providing for dominant selection of the recombinant viruses. Here, we describe a new method for the construction of rVACVs using the cowpox CP77 protein and unmodified VACV as the starting material. Our selection system will expand the range of tools available for positive selection of rVACV during vector construction, and it is substantially more high-fidelity than approaches based on selection for drug resistance.Liang Liu, Tamara Cooper, Preethi Eldi, Pablo Garcia- Valtanen, Kerrilyn R. Diener, Paul M. Howley, and John D. Haybal

Targeting prostate cancer cells with hybrid elastin-like polypeptide/liposome nanoparticles

Wei Zhang,1 Yunmei Song,1 Preethi Eldi,1 Xiuli Guo,2 John D Hayball,1,3 Sanjay Garg,1 Hugo Albrecht1 1Centre for Pharmaceutical Innovation and Development, Centre for Drug Discovery and Development, Experimental Therapeutics Laboratory, Sansom Institute for Health Research, School of Pharmacy and Medical Sciences, University of South Australia, Adelaide, SA, Australia; 2Department of Pharmacology, School of Pharmaceutical Sciences, Shandong University, Jinan, China; 3Robinson Research Institute and Adelaide Medical School, University of Adelaide, Adelaide, SA, Australia Abstract: Prostate cancer cells frequently overexpress the gastrin-releasing peptide receptor, and various strategies have been applied in preclinical settings to target this receptor for the specific delivery of anticancer compounds. Recently, elastin-like polypeptide (ELP)-based self-assembling micelles with tethered GRP on the surface have been suggested to actively target prostate cancer cells. Poorly soluble chemotherapeutics such as docetaxel (DTX) can be loaded into the hydrophobic cores of ELP micelles, but only limited drug retention times have been achieved. Herein, we report the generation of hybrid ELP/liposome nanoparticles which self-assembled rapidly in response to temperature change, encapsulated DTX at high concentrations with slow release, displayed the GRP ligand on the surface, and specifically bound to GRP receptor expressing PC-3 cells as demonstrated by flow cytometry. This novel type of drug nanocarrier was successfully used to reduce cell viability of prostate cancer cells in vitro through the specific delivery of DTX. Keywords: ELP-GRP, micelle, liposome, docetaxel, prostate cancer, GRPR, GPC

Production of a chikungunya vaccine using a CHO cell and attenuated viral-based platform technology

Vaccinia-based systems have been extensively explored for the development of recombinant vaccines. Herein we describe an innovative vaccinia virus (VACV)-derived vaccine platform technology termed Sementis Copenhagen Vector (SCV), which was rendered multiplication-defective by targeted deletion of the essential viral assembly gene D13L. A SCV cell substrate line was developed for SCV vaccine production by engineering CHO cells to express D13 and the VACV host-range factor CP77, because CHO cells are routinely used for manufacture of biologics. To illustrate the utility of the platform technology, a SCV vaccine against chikungunya virus (SCV-CHIK) was developed and shown to be multiplication-defective in a range of human cell lines and in immunocompromised mice. A single vaccination of mice with SCV-CHIK induced antibody responses specific for chikungunya virus (CHIKV) that were similar to those raised following vaccination with a replication-competent VACV-CHIK and able to neutralize CHIKV. Vaccination also provided protection against CHIKV challenge, preventing both viremia and arthritis. Moreover, SCV retained capacity as an effective mouse smallpox vaccine. In summary, SCV represents a new and safe vaccine platform technology that can be manufactured in modified CHO cells, with pre-clinical evaluation illustrating utility for CHIKV vaccine design and construction.Preethi Eldi, Tamara H. Cooper, Liang Liu, Natalie A. Prow, Kerrilyn R. Diener, Paul M. Howley, Andreas Suhrbier, and John D. Haybal

Thymus-derived regulatory T cells exhibit Foxp3 epigenetic modification and phenotype attenuation after mating in mice

Regulatory T cells (Tregs) are essential for maternal tolerance in allogeneic pregnancy. In preeclampsia, Tregs are fewer and display aberrant phenotypes, particularly in the thymic Treg (tTreg) compartment, potentially because of insufficient priming to male partner alloantigens before conception. To investigate how tTregs as well as peripheral Tregs (pTregs) respond to male partner seminal fluid, Foxp3⁺CD4⁺ Tregs were examined in the uterus and uterus-draining lymph nodes in virgin estrus mice and 3.5 d postcoitum. Mating elicited 5-fold increases in uterine Tregs accompanied by extensive Treg proliferation in the uterus-draining lymph nodes, comprising 70% neuropilin 1⁺ tTregs and 30% neuropilin 1⁻ pTregs. Proliferation marker Ki67 and suppressive competence markers Foxp3 and CTLA4 were induced after mating in both subsets, and Ki67, CTLA4, CD25, and GITR were higher in tTregs than in pTregs. Analysis by t-stochastic neighbor embedding confirmed phenotypically distinct tTreg and pTreg clusters, with the proportion of tTregs but not pTregs among CD4⁺ T cells expanding in response to seminal fluid. Bisulphite sequencing revealed increased demethylation of the Treg-specific demethylation region in the Foxp3 locus in tTregs but not pTregs after mating. These data show that tTregs and pTregs with distinct phenotypes both respond to seminal fluid priming, but the Foxp3 epigenetic signature is uniquely increased in tTregs. We conclude that reproductive tract tTregs as well as pTregs are sensitive to local regulation by seminal fluid, providing a candidate mechanism warranting evaluation for the potential to influence preeclampsia susceptibility in women.Lachlan M. Moldenhauer, John E. Schjenken, Christopher M. Hope, Ella S. Green, Bihong Zhang, Preethi Eldi, John D. Hayball, Simon C. Barry and Sarah A. Robertso