The Rubella Virus Spike construct comprises at least one E1 component and one E2 component, which are linked together. The E1 component consists of the E1 envelope protein, whose C-terminal transmembrane region and intravirional domain are removed and whose N-terminus comprises the ectodomain of the E1 envelope protein. The E2 component consists of the E2 envelope protein whose transmembrane regions and intravirional domain removed and whose C-terminus comprising the ectodomain of the E2 envelope protein. The C-terminus of the E2 component is connected to the N-terminus of the E1 component by direct fusion or by means of a linker to form an E1-E2 fusion protein.

The Rubella Virus Spike construct comprises at least one E1 component and one E2 component, which are linked together. The E1 component consists of the E1 envelope protein, whose C-terminal transmembrane region and intravirional domain are removed and whose N-terminus comprises the ectodomain of the E1 envelope protein. The E2 component consists of the E2 envelope protein whose transmembrane regions and intravirional domain removed and whose C-terminus comprising the ectodomain of the E2 envelope protein. The C-terminus of the E2 component is connected to the N-terminus of the E1 component by direct fusion or by means of a linker to form an E1-E2 fusion protein.

Disclosed are methods and compositions related to the use cannabinoids as adjuvants for the accelerated induction and production of an antibody based immune response.

Disclosed are methods and compositions related to the use cannabinoids as adjuvants for the accelerated induction and production of an antibody based immune response.

Provided herein are imidazopyrimidine compounds for use in enhancing human immune response and/or as adjuvants in vaccines.

Provided herein are imidazopyrimidine compounds for use in enhancing human immune response and/or as adjuvants in vaccines.

The present invention relates to a method of vaccinating a patient against varicella zoster virus (VZV) by delivery of an effective amount of a live attenuated VZV vaccine to the epidermis or the dermis of a patient's skin at a depth of between about 100 and about 700 microns from the surface of the skin, which is useful for preventing herpes zoster or reducing the severity or duration thereof. In embodiments of the invention, the patient is 50 years of age or older and has been previously exposed to VZV. The invention also relates to a method of preventing VZV infection in an individual who was not previously infected with VZV comprising administering an effective amount of a live attenuated VZV vaccine to the epidermis or the dermis of the individual's skin at a depth of between about 100 and about 700 microns from the surface of the skin.

The present invention relates to a method of vaccinating a patient against varicella zoster virus (VZV) by delivery of an effective amount of a live attenuated VZV vaccine to the epidermis or the dermis of a patient's skin at a depth of between about 100 and about 700 microns from the surface of the skin, which is useful for preventing herpes zoster or reducing the severity or duration thereof. In embodiments of the invention, the patient is 50 years of age or older and has been previously exposed to VZV. The invention also relates to a method of preventing VZV infection in an individual who was not previously infected with VZV comprising administering an effective amount of a live attenuated VZV vaccine to the epidermis or the dermis of the individual's skin at a depth of between about 100 and about 700 microns from the surface of the skin.

The present invention relates to an expression vector that encodes all or a portion of replicon proteins from a positive stranded virus, wherein expression of the replicon proteins is under the control of CMV and T7 promoters, and wherein expression of a payload is under the control of a sub-genomic promoter. Also provided are methods of using the vector in therapeutics and vaccines.

The present invention relates to an expression vector that encodes all or a portion of replicon proteins from a positive stranded virus, wherein expression of the replicon proteins is under the control of CMV and T7 promoters, and wherein expression of a payload is under the control of a sub-genomic promoter. Also provided are methods of using the vector in therapeutics and vaccines.