The present invention relates to a gene delivery complex comprising: a biocompatible polymer backbone; and pegylated lactoferrin connected to the biocompatible polymer backbone by means of a covalent bond. The gene delivery complex is orally administered into an individual, can be absorbed in vivo by means of a lactoferrin receptor, and enables the in vivo delivery of a target gene and the expression thereof.

Non-viral nucleic acid delivery agents and methods for the delivery or transfer of nucleic acid molecules to target cells are disclosed. The agents comprise a complex of a nucleic acid cargo for delivery, one or more lipopeptide compound, and one or more polymeric charge-neutralising agent, and the complex is in the form of a particle with substantially neutral or negative surface charge. The agents and methods may be useful in a variety of applications such as therapies (including gene therapies and nucleic acid vaccinations) for diseases and medical disorders.

The present invention provides, in part, a biodegradable compound of formula I, and sub-formulas thereof:Formula (I) or a pharmaceutically acceptable salt thereof, where each X independently is O or S, each Y independently is O or S, and each R.sup.1 independently is defined herein; and a liposome composition comprising the cationic lipid of formula I or a sub-formula thereof, and methods of delivering agents, such as nucleic acids including mRNA, in vivo, by administering to a subject the liposome comprising the cationic lipid of formula I or a sub-formula thereof, where the agent is encapsulated within the liposome.

##STR00001##

Disclosed herein are high transducing replication defective herpes simplex virus (HSV) vectors of McKrae strain.

The present invention provides a composition for delivering a polynucleotide into cells via a polyplex. The polyplex comprises the polynucleotide and a polymer. The composition comprises the polyplex, a collagen-mimetic peptide (CMP) and collagen fragments. The CMP is bound to the polyplex and the collagen fragments. Also provided are the uses of the composition in methods of delivering a polynucleotide into cells as well as methods of improving wound healing in a subject, enhancing cell proliferation in a subject, enhancing production of extracellular matrix by cells in a subject and/or enhancing cell migration by cells in a subject.

The present disclosure provides compositions and methods for the treatment of PPARG activated cancer. For example, the present disclosure provides PPARG signaling modulators for the treatment of bladder cancer. In particular, therapeutic and/or prophylactic compositions and uses of PPARG inverse-agonists are described.

In one aspect, described herein is a recognition element for splicing modifier (REMS) that can be recognized by a compound provided herein. In another aspect, described herein are methods for modulating the amount of a product of a gene, wherein a precursor RNA transcript transcribed from the gene contains a REMS, and the methods utilizing a compound described herein. More particularly, described herein are methods for modulating the amount of an RNA transcript or protein product encoded by a gene, wherein a precursor RNA transcript transcribed from the gene comprises a REMS, and the methods utilizing a compound described herein. In another aspect, provided herein are artificial gene constructs comprising a REMS, and uses of those artificial gene constructs to modulate functional protein production. In another aspect, provided herein are methods for altering endogenous genes to comprise a REMS, and the use of a compound described herein to modulate the functional protein produced from such altered endogenous genes.

Compositions and methods of use thereof for delivering nucleic acid cargo into cells are provided. The compositions typically include (a) a 3E10 monoclonal antibody or an antigen binding, cell-penetrating fragment thereof; a monovalent, divalent, or multivalent single chain variable fragment (scFv); or a diabody; or humanized form or variant thereof, and (b) a nucleic acid cargo including, for example, a nucleic acid encoding a polypeptide, a functional nucleic acid, a nucleic acid encoding a functional nucleic acid, or a combination thereof. Elements (a) and (b) are typically non-covalently linked to form a complex.

Disclosed herein are pharmaceutical compositions that comprise blends of lipid nanoparticles and related methods of using such blended compositions to deliver polynucleotides to one or more target cells, tissues or organs. The blended compositions are generally characterized as being able to efficiently deliver polynucleotides to target cells and by their ability to enhance the expression of such polynucleotides and the production of functional proteins by target cells.

Provided are expression vector constructs encoding multiple immunomodulatory proteins where each protein or component thereof can be expressed utilizing appropriate promoters and/or translation modifiers. Additional immunomodulatory proteins and genetic adjuvants containing shared tumor antigens can be added to further therapeutic potential as well as allow tracking of therapeutic treatment. Also provided are methods of use for the expression vectors.