Compositions and methods for treating enzyme-deficiency diseases are disclosed. Multidomain therapeutic proteins containing an internalization effector binding domain and a lysosomal replacement enzyme activity are disclosed. The multidomain therapeutic proteins are capable of entering cells, segregating to the lysosome, and delivering the replacement enzyme activity to the lysosome.

The present invention relates to nucleic acid regulatory elements that are able to enhance muscle-specific expression of genes, in particular expression in cardiac muscle and/or skeletal muscle, methods employing these regulatory elements and uses of these elements. Expression cassettes and vectors containing these nucleic acid regulatory elements are also disclosed. The present invention is particularly useful for applications using gene therapy, more particularly muscle-directed gene therapy, and for vaccination purposes.

Immunotherapeutic methods and compositions are contemplated in which neoepitopes and/or tumor associated antigens are delivered to dendritic cells via an adenoviral expression system that targets MHC-I and/or MHC-II presentation systems and that further provides one or more recombinant peptides to stimulate T cell activation and interfere with checkpoint inhibition. Treatment is further supported by transfusion of NK cells, which may be modified to have a high affinity CD16 receptor and/or a chimeric antigen receptor that binds to one or more neoepitopes and/or tumor associated antigens.

The invention provides Brachyury deletion mutant polypeptides, nucleic acids encoding the polypeptides, non-yeast vectors comprising the nucleic acids, non-yeast cells, and methods of use.

The present invention relates to polypeptides comprising a fragment of a teleost invariant chain optionally fused to one or more antigens or a teleost invariant chain fused to one or more antigens or antigenic fragments thereof, a polynucleotide encoding such polypeptides, vectors comprising such polynucleotides, collection of vectors comprising such polynucleotides and use of such polypeptides, polynucleotides, vectors for treating or preventing diseases, in particular tumor diseases. The teleost invariant chain polypeptides or fragments thereof act as “T cell enhancer” converting non-immunogenic antigenic sequences into immunogenic T cell antigens.

The present invention relates to a method for preparing viral vector-based compositions wherein the viral vector-based particles present in the composition have a particle size distribution with a polydispersity index (PDI) of less than 0.5, the method comprising the steps: (a) providing replication-deficient viral vectors; (b) providing a solution comprising at least one sugar and at least three different excipients selected from hydrophilic and amphiphilic excipients, wherein the excipients are characterized by polar, aliphatic, aromatic, negatively charged, and/or positively charged functional groups, and wherein the solution is further characterized by an excipient-sugar ratio of at least 1:2 (w/w); and (c) mixing the replication deficient viral vectors of step (a) with the solution of step (b). The present invention further relates to a viral vector-based composition obtainable by the method of the invention as well as to the viral vector-based composition of the invention for use as a prime-boost vaccine.

Cancer immunotherapy is enhanced by co-expression of cancer associated or tumor-specific (neo)epitopes with co-stimulatory molecules and/or other immune activators. Where desired, treatment may be enhanced by administration of a immune checkpoint inhibitor.

The invention provides recombinant influenza A hemagglutinin (HA) polypeptides, comprising an HA1 and a HA2 domain of an influenza A virus HA, and comprising an amino acid sequence wherein: (a) the amino acid at position 355 is W; and (b) the amino acid at position 432 is I and/or the amino acid at position 380 is I; and wherein the numbering of the amino acid positions in the amino acid sequence of the HA polypeptide is according to the numbering of amino acids in the amino acid sequence of HA from a reference H3N2 influenza strain, in particular the reference strain H3N2 A/Aichi/2/68 (SEQ ID NO: 1), immunogenic fragments thereof, nucleic acid molecules encoding said polypeptides or immunogenic fragments, and uses thereof.

Compositions and methods for treating enzyme-deficiency diseases are disclosed. Multidomain therapeutic proteins containing an internalization effector binding domain and a lysosomal replacement enzyme activity are disclosed. The multidomain therapeutic proteins are capable of entering cells, segregating to the lysosome, and delivering the replacement enzyme activity to the lysosome.

The invention provides engineered meganucleases, derived from I-Crel, which have substitutions at particular positions that increase the activity of the nucleases for recognition sequences containing certain center sequences. The invention also provides methods of cleaving double-stranded DNA using such engineered meganucleases. The invention further provides methods for improving the activity of engineered meganucleases for recognition sequences containing certain center sequences.