Provided herein are Complement Factor I (CFI) variants that exhibit at least one improved characteristic relative to a wild type CFI. CFI variants of the disclosure can exhibit tunable specificity and activity. Also included are CFI-containing fusion constructs comprising at least one domain of CFI, for example, wild type full length CFI fused to human serum albumin. Also included are methods of making and using such CFI variants and fusion constructs. The CFI variants and fusion constructs provided herein may be useful for treating a disease or condition associated with dysregulation of the complement system or a deficiency of CFI.

Melanocortin receptor-specific cyclic peptide

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or a pharmaceutically acceptable salt thereof, and pharmaceutical compositions or formulations and methods of preventing, ameliorating or treating melanocortin receptor-medicated diseases, indications, conditions and syndromes, including ocular indications, utilizing the cyclic peptide of the foregoing formula.

The present invention includes a milk-derived polypeptide derivative, composition and its method for using. The milk-derived polypeptide together with its cell penetrating peptide derivatives can slow down body weight gain of mice induced by high-fat diet, reduce blood glucose, serum triglycerides and insulin levels, and improve insulin sensitivity and glucose tolerance. In addition, it can function to reduce body weight and blood glucose of already established obese mice model. Therefore, it has potentials to prepare drugs, health care products and food additives for preventing and treating obesity and its complications and other related diseases.

Provided are a tumor immune enhancer, a pharmaceutical composition thereof, and a preparation method therefor. The enhancer comprises one or more polypeptides using sequences shown in SEQ ID NOs.: 1-9 as core structures, and can be used for preparing tumor vaccines.

This disclosure relates to modified immunoglobulins.

Disclosed herein are fusion proteins having a first domain that activates an antigen-presenting cell (APC) (e.g., a dendritic cell) by binding to an activation receptor of the APC, and a second domain that activates an immune effector cell (e.g., a T cell) by targeting a co-stimulatory signaling pathway of the immune effector cell, as well as polynucleotides that encode such fusion proteins. Disclosed herein are also genetically engineered immune effector cells expressing such fusion protein, methods of their production, and their uses in treatment of diseases such as cancers.

An engineered phage-derived particle (PDP) for expressing a transgene in a target cell transduced with a bacteriophage, the PDP includes (i) less than about 500 bp of DNA from the bacteriophage genome, (ii) an ITR-flanked therapeutic gene up to 20 kb, (iii) an endosomal escape sequence, (iv) a nuclear localization sequence, and (v) a cell-specific targeting moiety. The PDP may escape lysosomal degradation, traffic across the nuclear envelope and expressed a therapeutic gene in a mammalian cell.

Disclosed are a type of mitochondria-targeted polypeptides, the preparation method and the uses thereof. The polypeptide is abbreviated as MTP. The synthesis method of the present disclosure is simple, and the mitochondria-targeted polypeptide prepared by the method can specifically target the mitochondria of cells and are basically non-toxic to cells. In addition, these synthesized polypeptides demonstrate good cell-membrane-penetrating properties, and can conveniently undergo further multi-functional derivation and modification, thereby providing a potential delivery tool for the preparation of a mitochondria-targeted medicament.

The present disclosure relates to engineered T cells and methods of making and using the same, as well as reagents for making the engineered T cells.

A multispecific nanobodies chimeric antigen receptor and T-cell engager includes an HLA-G nanobody chimeric antigen receptor and a bispecific T-cell engager. The HLA-G nanobody chimeric antigen receptor includes an HLA-G nanobodies unit, a transmembrane domain, and a CD3z signaling domain. The bispecific T-cell engager includes a PD-L1 nanobodies unit and a CD3e nanobody.