Provided are recombinant Factor VIII proteins, e.g., human Factor VIII proteins with heterologous moieties inserted into flexible permissive loops located in the Factor VIII A domains, while retaining the procoagulant activity of Factor VIII.

New formulation to be used in the treatment and prevention of infections caused by COVID-19 and other coronaviruses, consisting of a food supplement the main active ingredient of which is liposome-encapsulated lactoferrin. As secondary active ingredients, it includes zinc salt and vitamin C, also encapsulted in liposomes. This composition is intended to be used as a treatment for mild or acute cases of COVID-19, and to prevention infection by those who are not infected.

Novel antibodies, such as single domain antibodies (sdAbs), or antigen-binding fragments thereof that specifically bind a transferrin are described. Compositions, methods and systems for increasing the half-life of a target protein in a serum using an antibody or fragment thereof against a transferrin are also described.

Novel antibodies, such as single domain antibodies (sdAbs), or antigen-binding fragments thereof that specifically bind a transferrin are described. Compositions, methods and systems for increasing the half-life of a target protein in a serum using an antibody or fragment thereof against a transferrin are also described.

The present invention relates to a polypeptide comprising a transferrin receptor binding domain (TRBD) of a ferritin variant. The TRBD comprises one or more glutamine residues mutated into glutamic acid residues and/or one or more asparagine residues mutated into aspartic acid residues. 5 The invention further relates to a complex of this polypeptide and a label or drug, and an isolated cellular delivery system comprising the polypeptide or the complex of the invention as well as uses of such system for prophylaxis, therapy, diagnosis or theragnosis, in particular for therapy of cancer or inflammatory diseases.

The present invention relates to a polypeptide comprising a transferrin receptor binding domain (TRBD) of a ferritin variant. The TRBD comprises one or more glutamine residues mutated into glutamic acid residues and/or one or more asparagine residues mutated into aspartic acid residues. 5 The invention further relates to a complex of this polypeptide and a label or drug, and an isolated cellular delivery system comprising the polypeptide or the complex of the invention as well as uses of such system for prophylaxis, therapy, diagnosis or theragnosis, in particular for therapy of cancer or inflammatory diseases.

The present invention relates to: a fusion peptide comprising a thrombus-targeting peptide, ferritin fragment and a thrombolytic peptide; and a use thereof and, more specifically, to: a fusion peptide in which a thrombus-targeting peptide, ferritin fragment and a thrombolytic peptide are sequentially linked; a composition for preventing or treating thrombotic disorders, containing the same as an active ingredient; a method for treating thrombotic disorders; and a therapeutic use. According to the present invention, CLT-sFt-μPn DCNC as a novel plasmin-based thrombolytic nanocage has: an effect of targeting a site at which thrombus is present; a low sensitivity to inhibitors present in the circulatory system; pharmacological activity strongly destroying both arterial and venous thrombi; and no side effects of bleeding, and thus can be very useful in developing an agent for preventing or treating thrombotic disorders.

The present invention relates to: a fusion peptide comprising a thrombus-targeting peptide, ferritin fragment and a thrombolytic peptide; and a use thereof and, more specifically, to: a fusion peptide in which a thrombus-targeting peptide, ferritin fragment and a thrombolytic peptide are sequentially linked; a composition for preventing or treating thrombotic disorders, containing the same as an active ingredient; a method for treating thrombotic disorders; and a therapeutic use. According to the present invention, CLT-sFt-μPn DCNC as a novel plasmin-based thrombolytic nanocage has: an effect of targeting a site at which thrombus is present; a low sensitivity to inhibitors present in the circulatory system; pharmacological activity strongly destroying both arterial and venous thrombi; and no side effects of bleeding, and thus can be very useful in developing an agent for preventing or treating thrombotic disorders.

The present invention relates to cell culture media supplements or complete media compositions comprising plant-produced heterologous recombinant human albumin, as well as methods of making the cell culture media, and methods of using the supplemented cell culture media to improve viability, productivity, and growth characteristics of cultured cells.

The present invention relates to cell culture media supplements or complete media compositions comprising plant-produced heterologous recombinant human albumin, as well as methods of making the cell culture media, and methods of using the supplemented cell culture media to improve viability, productivity, and growth characteristics of cultured cells.