Increased viral particle maturation and production can be achieved in various methods for producing viral particles from viral proteins, in general, by inhibiting or preventing Heme Oxygenase 2 (HO-2) from binding to the group-specific antigen (Gag) of the viral proteins, thus allowing delivery of the viral proteins to plasma membranes where they can replicate and mature without interference from HO-2. The increase in viral particle maturation and production can also be achieved by minimizing or eliminating the presence of HO-2 to thus reduce or prevent binding of HO-2 to the group-specific antigen (Gag) of the viral proteins. The invention is particularly applicable to the production of lentiviruses from viral proteins wherein the Matrix domain (MA) of the Gag is myristoylated.

The invention provides compositions, kits and methods utilizing polypeptides having a viral alpha-helix heptad repeat domain in a stabilized -helical structure (herein also referred to as SAH). The compositions are useful for treating and/or preventing viral infections. The invention is based, at least in part, on the result provided herein demonstrating that viral hydrocarbon stapled alpha helical peptides display excellent proteolytic, acid, and thermal stability, restore the native alpha-helical structure of the peptide, are highly effective in interfering with the viral fusogenic process, and possess superior pharmacokinetic properties compared to the corresponding unmodified peptides.

The present disclosure relates to recombinant rhesus cytomegalovirus (RhCMV) and human cytomegalovirus (HCMV) vectors encoding heterologous antigens, such as pathogen-specific antigens or tumor antigens, which may be used, for example, for the treatment or prevention of infectious disease or cancer. The recombinant RhCMV or HCMV vectors elicit and maintain high level cellular immune responses specific for the heterologous antigen while including deletions in one or more genes essential or augmenting for CMV replication, dissemination or spread.

Compositions are disclosed that induce broadly HIV theraputic and vaccine inducing antibodies against diverse HIV clades and relate to the ability to identify HIV gp120-derived short peptide sequence immunogens and various therapeutic compositions made from the identified peptides which compose CCR5 binding sites. Also disclosed are methods of selecting peptide sequences that are likely candidates for drugs which will offer effective treatment in such areas as Alzheimer's disease, psoriasis, multiple sclerosis and other diseases associated with the human inflammatory cascade as well as related retroviruses such as HTLV-1, the cause of tropical spastic paraparesis.

The present invention relates, in general, to HIV-1 and, in particular, to broadly neutralizing HIV-1 antibodies, and to HIV-1 immunogens and to methods of using such immunogens to induce the production of broadly neutralizing HIV-1 antibodies in a subject (e.g., a human).

Methods are disclosed for inhibiting a HIV infection in a subject. These methods include administering to the subject an effective amount of a recombinant gp120 protein comprising a deletion of HIV-1 Envelope residues 137-152 according to the HXBc2 numbering system, or a nucleic acid molecule encoding the recombinant gp120 protein, wherein the recombinant gp120 protein elicits an immune response to HIV-1. The methods also include administering to the subject an effective amount of a SAMT-247 microbicide.

The invention provides methods, compositions and kits for treating and or preventing an HIV infection. For example, HIV envelope-like polypeptides (wild-type HIV polypeptides and mimotopes) may be administered to an individual so as to induce a protective immune response to HIV. Alternatively, antibodies directed to the HIV envelope-like polypeptides may be administered to an individual to treat or prevent an HIV infection and/or one or more symptoms associated with the infection (e.g., AIDS).

The present disclosure provides fusion proteins that incorporate unique mechanisms for multimerizing antigens to enhance their immunogenicity. The fusion proteins comprise at least two antigens, or other vaccine related proteins, separated by a linker sequence and an oligomerization domain. When expressed, the fusion protein forms a muKimeric protein complex, This approach can be used to muHimeri?.e a single antigen/protein or to create multimers comprising two or more different antigens/proteins. Also provided are nucleic acids encoding the fusion proteins. Yet another aspect is directed to methods of inducing or suppressing an immune response in a subject by administering to the subject a vaccine composition comprising a fusion protein or nucleic acid encoding the fusion protein, optionally without using an adjuvant.

The present invention relates, in general, to an immunogen and, in particular, to an immunogen for inducing antibodies that neutralizes a wide spectrum of HIV primary isolates and/or to an immunogen that induces a T cell immune response. The invention also relates to a method of inducing anti-HIV antibodies, and/or to a method of inducing a T cell immune response, using such an immunogen. The invention further relates to nucleic acid sequences encoding the present immunogens.

The present invention describes unique means for reducing autoreactivity that sensitizes against sustained treatments, and toxicity associated with administration of biologicals, in order to develop safer cancer immunotherapeutics. Short functional sequences are identified in the biologic and matched to their most homologous human counterpart. The human homologs are swapped in to replace their foreign counterparts. Alternatively, variants are selected that have exhibit less toxicity in human or primate experiments from nature, and these sequences are swapped in to replace their counterparts in the biologic. Also, human sequences that mediate the same function as foreign sequences in the biologic, but lack any sequence homology, can be swapped in for their foreign sequence counterparts. These inventions are applied to derivatize the HIV/SIV Tat protein into humanized trimers (CATS) useful for the treatment of cancer.