Described herein are compounds and methods for tethering proteins. For example, dimers of Protein X listed in Table 1 are described, where the dimers are formed by the covalent bonding of a cysteine on the first monomer to a cysteine on the second monomer via a cyclic disulfide linker. The covalently attached dimers exhibit increased stabilization and can be used to treat neurodegenerative diseases (such as, for example, Parkinson's Disease, ALS, Alzheimer's Disease, Huntington's Disease, Epilepsy, Frontotemporal Dementia, and/or DMD), cancer, autoimmune disease, and/or Celiac disease.

The present invention relates to the use of a CD24 protein for treating Systemic Lupus Erythematosus (Lupus, SLE).

The present invention relates to the use of a CD24 protein for treating Systemic Lupus Erythematosus (Lupus, SLE).

This disclosure generally relates to therapeutic conjugates that covalently bind to a biological target. Methods of administering the compositions to a subject in need thereof are also provided herein.

Provided herein are protein-based purification matrices and methods of use thereof to purify biologics and/or to remove contaminants from a composition. Methods of bringing two or more biologics in close proximity are also provided. The disclosed compositions and methods allow for faster, more efficient purification of a biologic compared to traditional affinity chromatography.

The present disclosure provides for proprotein and activatable proprotein compositions. A proprotein contains a functional protein (i.e. a full length protein or functional fragment thereof) which is coupled to a peptide mask that inhibits the binding of the functional protein to its target or binding partner. An activatable proprotein contains a functional protein coupled to a peptide mask, and further coupled to an activatable linker, wherein in an non-activated state, the peptide mask inhibits binding of the functional protein to its target or binding partner and in an activated state the peptide mask does not inhibit binding of the functional protein to its target or binding partner. Proproteins can provide for reduced toxicity and adverse side effects that could otherwise result from binding of a functional protein at non-treatment sites if it were not inhibited from binding its binding partner. Proproteins can further provide improved biodistribution characteristics. Proproteins containing a peptide mask can display a longer in vivo or serum half-life than the corresponding functional protein not containing a peptide mask. The disclosure further provides methods of screening for, making, and using these proproteins.

The present disclosure provides for proprotein and activatable proprotein compositions. A proprotein contains a functional protein (i.e. a full length protein or functional fragment thereof) which is coupled to a peptide mask that inhibits the binding of the functional protein to its target or binding partner. An activatable proprotein contains a functional protein coupled to a peptide mask, and further coupled to an activatable linker, wherein in an non-activated state, the peptide mask inhibits binding of the functional protein to its target or binding partner and in an activated state the peptide mask does not inhibit binding of the functional protein to its target or binding partner. Proproteins can provide for reduced toxicity and adverse side effects that could otherwise result from binding of a functional protein at non-treatment sites if it were not inhibited from binding its binding partner. Proproteins can further provide improved biodistribution characteristics. Proproteins containing a peptide mask can display a longer in vivo or serum half-life than the corresponding functional protein not containing a peptide mask. The disclosure further provides methods of screening for, making, and using these proproteins.

Provided herein are polynucleic acids and expression vectors for the expression and secretion of angiotensin peptide fragments (e.g., angiotensin-(1-7)) in probiotic bacteria. Provided herein are also probiotic compositions that enable efficient, cost-effective and patient friendly oral therapeutics for treating diverse pathological conditions that involve the renin-angiotensin system (RAS), e.g., pulmonary hypertension, diabetes, diabetic complications, cardiovascular diseases, and ocular inflammatory and neurodegenerative diseases.

Provided herein are polynucleic acids and expression vectors for the expression and secretion of angiotensin peptide fragments (e.g., angiotensin-(1-7)) in probiotic bacteria. Provided herein are also probiotic compositions that enable efficient, cost-effective and patient friendly oral therapeutics for treating diverse pathological conditions that involve the renin-angiotensin system (RAS), e.g., pulmonary hypertension, diabetes, diabetic complications, cardiovascular diseases, and ocular inflammatory and neurodegenerative diseases.

A fusion protein, an amino acid sequence thereof, a coding nucleotide sequence thereof, a preparation method thereof and a use thereof are in the technical field of agricultural biotechnology. The fusion protein contains or consists of at least three, four, five, six, seven, or eight same and/or different PAMP (Pathogen-Associated Molecular Pattern) polypeptides. Optionally, there is at least one linker or no linker between two adjacent PAMP polypeptides. A plurality of PAMP polypeptides are assembled into the fusion protein having multiple immune epitopes. The fusion protein may induce defense immune responses of plants, weaken infestation ability of pathogenic microorganisms and substantially improve the disease resistance of plants. The method for preparing the fusion protein combines technologies of PTI (PAMP-Triggered Immunity) mechanism and gene engineering to obtain the fusion protein having multiple immune epitopes can be used in preparation of plant immune PAMP polypeptides.