The present invention relates to compositions and methods for the treatment of immunodeficiency (e.g., primary immunodeficiency disease). In particular, the invention provides human plasma immunoglobulin compositions containing select antibody titers specific for a plurality of respiratory pathogens, methods of identifying human donors and donor samples for use in the compositions, methods of manufacturing the compositions, and methods of utilizing the compositions (e.g., for prophylactic administration and/or therapeutic treatment (e.g., passive immunization (e.g., immune-prophylaxis))).

According to certain embodiments, the present disclosure provides bispecific antigen-binding molecules comprising a first antigen-binding domain that specifically binds a target antigen and a second antigen binding domain that binds a complement component. In certain embodiments, the bispecific antigen-binding molecules of the present disclosure are capable of binding to the target antigen with an EC.sub.50 of about 10 nM or less, and/or are capable of promoting complement deposition on the target antigen with an EC.sub.50 of about 10 nM. In certain embodiments, the bispecific antigen-binding molecules of the disclosure are useful for treating diseases in which inhibition or reduction of the growth of an infectious agent or cancer cell is desired and/or therapeutically beneficial.

The present invention relates to insect cell lines for the production of parvoviral gene therapy vectors. In particular the invention relates to stable insect cell lines with expression constructs for viral replicase proteins integrated into their genomes, which cell lines allow for high-yield, robust, and scalable production of heterologous parvoviral-related proteins and vectors.

Provided are an antibody or antigen-binding fragment thereof that specifically binds to hepatitis B virus surface antigen (HBsAg), a pharmaceutical composition containing the antibody or antigen-binding fragment, and use thereof. Further provided are a nucleic acid molecule encoding the antibody, a vector and a host cell containing the nucleic acid molecule, and a method for preparing the antibody.

Described herein are methods of avoiding an immune response in a subject being administered a regimen requiring Cas9 in order to optimize and broaden the application of CRIPSR based therapeutics comprising administering immune orthogonal Cas9. Also described herein are methods to modify a Cas9 protein by swapping highly immunogenic peptides or amino acids with less immunogenic counterparts. These methods are particularly useful to enable the application of Cas9 arsenal for repeat treatments. Further provided are Cas9 proteins modified to reduce immunogenicity.

Provided herein are binding molecules, such as those that recognize or bind a peptide epitope of a cancer antigen, such as expressed on a cancer cell, including cells infected with human papilloma virus (HPV) or that contain HPV DNA sequences and/or those that recognize or bind a peptide epitope of HPV 16 E6 or E7, in the context of a major histocompatibility complex (MHC) molecule. Among the provided binding molecules are T cell receptors (TCRs) or antibodies, including antigen-binding fragments thereof, that bind or recognize such peptide epitopes. The present disclosure further relates to engineered cells comprising such binding molecules, e.g., TCRs or antibodies (and chimeric antigen receptors containing the antibodies), and uses thereof in adoptive cell therapy.

A T cell antigen receptor, an immune cell for expressing the T cell antigen receptor (TCR) and a preparation method and use thereof. The TCR disclosed in the present invention can be specifically activated by virus antigen peptide presenting cells, so that the release level of extracellular cytokines IFNγ and IL2 and the release amount of lactate dehydrogenase are improved, and target cells are significantly killed.

The present invention demonstrated that the modification of the Fc region of an antigen-binding molecule into an Fc region that does not form in a neutral pH range a heterotetramer complex containing two molecules of FcRn and an active Fcγ receptor improved the pharmacokinetics of the antigen-binding molecule and reduced the immune response to the antigen-binding molecule. The present invention also revealed methods for producing antigen-binding molecules having the properties described above, and successfully demonstrated that pharmaceutical compositions containing as an active ingredient such an antigen-binding molecule or an antigen-binding molecule produced by a production method of the present invention have excellent features over conventional antigen-binding molecules in that when administered, they exhibit improved pharmacokinetics and reduced in vivo immune response.

The present invention demonstrated that the modification of the Fc region of an antigen-binding molecule into an Fc region that does not form in a neutral pH range a heterotetramer complex containing two molecules of FcRn and an active Fcγ receptor improved the pharmacokinetics of the antigen-binding molecule and reduced the immune response to the antigen-binding molecule. The present invention also revealed methods for producing antigen-binding molecules having the properties described above, and successfully demonstrated that pharmaceutical compositions containing as an active ingredient such an antigen-binding molecule or an antigen-binding molecule produced by a production method of the present invention have excellent features over conventional antigen-binding molecules in that when administered, they exhibit improved pharmacokinetics and reduced in vivo immune response.

The present invention relates to polyclonal antibodies directed against at least one non-human biological pathogen, or against at least one molecule derived from said pathogen, towards a human or a non-human animal organism, wherein the said polyclonal antibodies are devoid of an antigenic determinant selected in a group comprising (i) N-glycolneuraminic acid (Neu5Gc) and/or (ii) a-1,3-galactose, and their use as a medicament.