Provided herein are anti-infective peptides and uses thereof. Such anti-infective peptides are useful against bacteria and viruses. Also provided herein are compositions comprising said anti-infective peptides.

Provided herein are anti-infective peptides and uses thereof. Such anti-infective peptides are useful against bacteria and viruses. Also provided herein are compositions comprising said anti-infective peptides.

A method of preparing extracellularly assembled higher order antigen from a native lower order antigen the method comprising the following steps: (i) contacting lower order antigen with a solution comprising a reducing agent for a time and under 5 conditions sufficient to reduce one or more native cysteines; and (ii) removing or diluting the reducing agent or contacting the reduced lower order antigen with an oxidising agent, to elicit assembly of lower order antigen from (i) into an assembled higher order antigen; wherein at least 10% of the lower order antigen is converted to higher order antigen in step (ii) and whereby the assembled higher order antigen 10 displays at least reduced binding to non-neutralizing antibodies compared to the lower order antigen and retains binding to at least one neutralizing antibody. A method of producing a vaccine composition comprising following the steps of the method and then mixing the assembled higher order antigen with a pharmaceutically or physiologically acceptable diluent, carrier or adjuvant. A composition comprising a 15 higher order extracellularly assembled antigen, wherein the assembled antigen displays at least reduced binding to a non-neutralizing antibody compared to a native control higher order antigen. Use of the assembled higher order antigen to stimulate an immune response or for the detection and/or isolation of an immune cell such as a B-cell specific for the antigen.

The technology described herein is directed to CAR polypeptides and systems comprising repressible proteases. In combination with a specific protease inhibitor, the activity of said CAR polypeptides and systems and cells comprising them can be modulated. Also described herein are methods of using said CAR polypeptides and systems, for example to treat various diseases and disorders.

A method of preparing extracellularly assembled higher order antigen from a native lower order antigen the method comprising the following steps: (i) contacting lower order antigen with a solution comprising a reducing agent for a time and under 5 conditions sufficient to reduce one or more native cysteines; and (ii) removing or diluting the reducing agent or contacting the reduced lower order antigen with an oxidising agent, to elicit assembly of lower order antigen from (i) into an assembled higher order antigen; wherein at least 10% of the lower order antigen is converted to higher order antigen in step (ii) and whereby the assembled higher order antigen 10 displays at least reduced binding to non-neutralizing antibodies compared to the lower order antigen and retains binding to at least one neutralizing antibody. A method of producing a vaccine composition comprising following the steps of the method and then mixing the assembled higher order antigen with a pharmaceutically or physiologically acceptable diluent, carrier or adjuvant. A composition comprising a 15 higher order extracellularly assembled antigen, wherein the assembled antigen displays at least reduced binding to a non-neutralizing antibody compared to a native control higher order antigen. Use of the assembled higher order antigen to stimulate an immune response or for the detection and/or isolation of an immune cell such as a B-cell specific for the antigen.

The technology described herein is directed to CAR polypeptides and systems comprising repressible proteases. In combination with a specific protease inhibitor, the activity of said CAR polypeptides and systems and cells comprising them can be modulated. Also described herein are methods of using said CAR polypeptides and systems, for example to treat various diseases and disorders.

The present invention relates to the field of vaccination, in particular, of vaccination against hepatitis C virus (HCV). The present invention provides a composition comprising at least parts of the HCV core protein, and HCV E1 and HCV E2 protein of a specific HCV strain, as well as VSV-G protein. The proteins may be assembled in rVSV-HCV particles. This has been identified to induce particularly advantageous broadly neutralizing antibodies. The invention further provides nucleic acids encoding said HCV proteins and VSV proteins but not encoding VSV-G protein. Vaccines comprising the particles, compositions or nucleic acids are disclosed as useful, in particular, for prophylactic vaccination against HCV. Methods of producing the rVSV-HCV particles or compositions of the invention and the produced particles and compositions are also subject-matter of the invention.