A method of treating an eye disease comprising administering an adeno-associated virus (AAV) vector to a mammalian subject by subretinal injection, wherein the AAV vector comprises a nucleotide sequence encoding melanopsin operably linked to an expression control sequence to promote expression of melanopsin in cells of the eye of the subject.

The present invention relates to the fields of life sciences and medicine. Specifically, the invention relates to cancer therapies of humans. More specifically, the present invention relates to oncolytic adenoviral vectors alone or together with therapeutic compositions for therapeutic uses and therapeutic methods for cancer. In one aspect the present invention relates to separate administration of adoptive cell therapeutic composition and oncolytic adenoviral vectors. Furthermore, the present invention relates to a pharmaceutical kit and a pharmaceutical composition, both utilizing oncolytic adenoviral vectors.

The present invention relates to a pharmaceutical composition for treatment or prevention of macular degeneration and, more particularly, to a recombinant vector carrying a soluble VEGF receptor variant cDNA and a pharmaceutical composition comprising the same for treatment or prevention of macular degeneration. According to the present invention, age-related macular degeneration, which is a representative retinal disease causing blindness in adults, can be effectively treated and a prophylactic effect can be expected.

Various examples of methods and systems are provided for direct closed-form finite alphabet constant-envelope waveforms for planar array beampatterns. In one example, a method includes defining a waveform covariance matrix based at least in part upon a two-dimensional fast Fourier transform (2D-FFT) analysis of a frequency domain matrix H.sub.f associated with a planar array of antennas. Symbols can be encoded based upon the waveform covariance matrix and the encoded symbols can be transmitted via the planar array of antennas. In another embodiment, a system comprises an NM planar array of antennas and transmission circuitry configured to transmit symbols via a two-dimensional waveform beampattern defined based at least in part upon a 2D-FFT analysis of a frequency domain matrix H.sub.f associated with the planar array of antennas.

Novel nucleic acid molecules encoding a pre-fusion RSV F protein or immunologically active part thereof are described, and the pre-fusion RSV F protein contains the amino acid sequence of SEQ ID NO: 1 or 2. Use of the nucleic acid molecules, or vectors containing the nucleic acid molecules, as a vaccine against respiratory syncytial virus (RSV) is also described.

New gene therapy constructions and compositions are the subject of present invention. The gene therapy compositions consist in adeno-associated vectors which jointly express insulin (Ins) and glucokinase (Gck) genes. The new gene therapy constructions are useful for treatment of diabetes either in dosgs or human beings.

Provided is designer nucleic acid constructs and polypeptides that can be used as therapeutic vaccines against HPV16.

The present invention relates to the fields of life sciences and medicine. Specifically, the invention relates to cancer therapies of humans. More specifically, the present invention relates to oncolytic adenoviral vectors alone or together with therapeutic compositions for therapeutic uses and therapeutic methods for cancer. In one aspect the present invention relates to separate administration of adoptive cell therapeutic composition and oncolytic adenoviral vectors. Furthermore, the present invention relates to a pharmaceutical kit and a pharmaceutical composition, both utilizing oncolytic adenoviral vectors.

The invention relates to a multi-HBV immunogen viral vector vaccine comprising: a viral vector comprising an immunogen expression cassette, wherein the expression of a protein encoded by the expression cassette is arranged to be driven by a promoter, wherein the immunogen expression cassette encodes: a) HBV Core; b) a modified HBV polymerase (P.sub.mut), wherein the modification is a mutation to wild-type HBV polymerase to substantially remove polymerase function; c) HBV surface antigen (HbsAg); and d) an intergenic sequence that is arranged to cause expression of at least the HBV surface antigen (HbsAg) as a separate protein from the HBV core and the modified HBV polymerase (P.sub.mut), wherein the intergenic sequence is downstream (3) of the sequences encoding the HBV core and the modified HBV polymerase (P.sub.mut) and upstream (5) of the sequence encoding the HBV surface antigen (HbsAg); and related compositions, vaccination methods and methods of treatment or prophylaxis of HBV infection.

Methods of inducing an immune response against human immunodeficiency virus (HIV) are described. In particular, methods of inducing an immune response against HIV by co-locally administering an immunogenically effective amount of an isolated HIV envelope (Env) polypeptide and an immunogenically effective amount of an adenovirus vector encoding an HIV antigen, e.g., Env antigen are described. The isolated HIV Env polypeptide and adenovirus vector can be administered in a single composition or in separate compositions, in which the composition or compositions do not contain an adjuvant.