The present invention relates to reconstituted high density lipoprotein (rHDL) formulations comprising an apolipoprotein, a lipid and a lyophilization stabilizer. Said formulations have reduced renal toxicity and good long-term stability, especially in lyophilized form.

The present invention relates to reconstituted high density lipoprotein (rHDL) formulations comprising an apolipoprotein, a lipid and a lyophilization stabilizer. Said formulations have reduced renal toxicity and good long-term stability, especially in lyophilized form.

Provided is a peptide provided herein includes at least one peptide unit, and the peptide unit may include at least one B-cell epitope, at least one Th epitope, and an appropriate number of auxiliary parts. The peptide unit is a portion designed to uniformly induce only the intended antibody while exhibiting a certain level of immunogenicity in the body of a subject. In addition, the peptide unit is designed with a relatively short length, and thus has the characteristics of easy synthesis and a low production cost. The peptide has properties suitable for use as an immunotherapeutic due to the characteristics of the peptide unit described above. In the present specification, the design principles of the peptide and the peptide unit are disclosed in detail.

Compositions and methods relating to ApoA-1 fusion polypeptides are disclosed. The fusion polypeptides include a first polypeptide segment corresponding to an ApoA-1 polypeptide or ApoA-1 mimetic, and may also include a dimerizing domain such as, e.g., an Fc region, which is typically linked carboxyl-terminal to the first polypeptide segment via a flexible linker. In some embodiments, the fusion polypeptide further includes a second polypeptide segment located carboxyl-terminal to the first polypeptide segment and which confers a second biological activity (e.g., an RNase, paraoxonase, platelet-activating factor acetylhydrolase, cholesterol ester transfer protein, lecithin-cholesterol acyltransferase, polypeptide that specifically binds to proprotein convertase subtilisin/kexin type 9, or polypeptide that specifically binds to amyloid beta). Also disclosed are dimeric proteins comprising first and second ApoA-1 fusion polypeptides as disclosed herein. The fusion polypeptides and dimeric proteins are useful in methods for therapy.

Compositions and methods relating to ApoA-1 fusion polypeptides are disclosed. The fusion polypeptides include a first polypeptide segment corresponding to an ApoA-1 polypeptide or ApoA-1 mimetic, and may also include a dimerizing domain such as, e.g., an Fc region, which is typically linked carboxyl-terminal to the first polypeptide segment via a flexible linker. In some embodiments, the fusion polypeptide further includes a second polypeptide segment located carboxyl-terminal to the first polypeptide segment and which confers a second biological activity (e.g., an RNase, paraoxonase, platelet-activating factor acetylhydrolase, cholesterol ester transfer protein, lecithin-cholesterol acyltransferase, polypeptide that specifically binds to proprotein convertase subtilisin/kexin type 9, or polypeptide that specifically binds to amyloid beta). Also disclosed are dimeric proteins comprising first and second ApoA-1 fusion polypeptides as disclosed herein. The fusion polypeptides and dimeric proteins are useful in methods for therapy.

The invention relates to therapeutic nanobiologic compositions and methods of treating patients who have cancer, by promoting trained immunity, which is the long-term increased responsiveness, the result of metabolic and epigenetic re-wiring of myeloid cells and their stem cells and progenitors in the bone marrow and spleen and blood induced by a primary insult, and characterized by increased cytokine excretion after re- stimulation with one or multiple secondary stimuli.

The invention relates to therapeutic nanobiologic compositions and methods of treating patients who have cancer, by promoting trained immunity, which is the long-term increased responsiveness, the result of metabolic and epigenetic re-wiring of myeloid cells and their stem cells and progenitors in the bone marrow and spleen and blood induced by a primary insult, and characterized by increased cytokine excretion after re- stimulation with one or multiple secondary stimuli.

This invention relates to a method of producing a circularised form of a target protein from a fusion protein and to a fusion protein capable of producing a circularised form of a target protein. The fusion protein can comprise: the target protein; at least one circularisation site adjacent the target protein; and an enzyme domain capable of interacting with the at least one circularisation site and circularising the target protein. The target protein can be a membrane scaffold protein or a cyclotide such as SFTI, Vc1.1, Kalata B1 or MCOTI-II.

This invention relates to a method of producing a circularised form of a target protein from a fusion protein and to a fusion protein capable of producing a circularised form of a target protein. The fusion protein can comprise: the target protein; at least one circularisation site adjacent the target protein; and an enzyme domain capable of interacting with the at least one circularisation site and circularising the target protein. The target protein can be a membrane scaffold protein or a cyclotide such as SFTI, Vc1.1, Kalata B1 or MCOTI-II.

The present disclosure provides charged lipoprotein complexes that include as one component a negatively charged phospholipid that is expected to impart the complexes with improved therapeutic properties.