The present invention relates to a composition or cell therapeutic agent for preventing or treating liver fibrosis, containing an exosome or exosome-derived ribonucleic acid. The exosome or ribonucleic acid derived therefrom, of the present invention, has effects of inhibiting activities of hepatic stellate cells and Kupffer cells and reducing the expression of α-SMA and inhibits the progression of liver fibrosis by inhibiting the deposition of collagen, thereby being effectively usable as a cell therapeutic agent for the prevention or treatment of liver fibrosis.

The present invention relates to a composition or cell therapeutic agent for preventing or treating liver fibrosis, containing an exosome or exosome-derived ribonucleic acid. The exosome or ribonucleic acid derived therefrom, of the present invention, has effects of inhibiting activities of hepatic stellate cells and Kupffer cells and reducing the expression of α-SMA and inhibits the progression of liver fibrosis by inhibiting the deposition of collagen, thereby being effectively usable as a cell therapeutic agent for the prevention or treatment of liver fibrosis.

A composition with exogenous mitochondria as active ingredients, and a use thereof and a cell repairing method therefor. The composition includes exogenous mitochondria and at least one pharmaceutically or cosmetically acceptable carrier. The composition may further include an adjuvant, and the adjuvant is selected from a group consisting of serum, plasma, complement and at least the above two ingredients. The exogenous mitochondria are obtained from cells by a centrifugal purification method.

A composition with exogenous mitochondria as active ingredients, and a use thereof and a cell repairing method therefor. The composition includes exogenous mitochondria and at least one pharmaceutically or cosmetically acceptable carrier. The composition may further include an adjuvant, and the adjuvant is selected from a group consisting of serum, plasma, complement and at least the above two ingredients. The exogenous mitochondria are obtained from cells by a centrifugal purification method.

The current invention concerns isolated liver progenitor cells, cell lines thereof, cell populations comprising such and compositions comprising such wherein the liver progenitor cells are HLA-E positive. In addition, the invention concerns methods of preparing these liver progenitor cells.

The current invention concerns isolated liver progenitor cells, cell lines thereof, cell populations comprising such and compositions comprising such wherein the liver progenitor cells are HLA-E positive. In addition, the invention concerns methods of preparing these liver progenitor cells.

A method of treating liver-based inborn, metabolic deficiencies is disclosed by treatment of an individual, such as a patient suffering from liver-based inborn, metabolic deficiencies, with human progenitor or stem cells, a cell population or their progeny. The cells used in the treatment have the following characteristics. They are positive for vimentin, α-smooth muscle actin (ASMA), and for at least one mesenchymal marker such as CD90, CD29, CD73, and CD44. They are positive for at least one hepatocyte marker such as albumin, alpha-fetoprotein, alpha-1 antitrypsin, HNF-4 and MRP2 transporter. They express at least one hepatocyte-like property or function such as G6P, CYP1B1, CYP3A4, TDO, TAT, GS, GGT, CK8, and EAAT2. They are negative for at least one marker such as cytokeratin-19, CD45, CD34, CD49f, CD133, HLA-DR, and CD117. They have mesenchymal-like morphology. They originate from human adult liver cells.

A method of treating liver-based inborn, metabolic deficiencies is disclosed by treatment of an individual, such as a patient suffering from liver-based inborn, metabolic deficiencies, with human progenitor or stem cells, a cell population or their progeny. The cells used in the treatment have the following characteristics. They are positive for vimentin, α-smooth muscle actin (ASMA), and for at least one mesenchymal marker such as CD90, CD29, CD73, and CD44. They are positive for at least one hepatocyte marker such as albumin, alpha-fetoprotein, alpha-1 antitrypsin, HNF-4 and MRP2 transporter. They express at least one hepatocyte-like property or function such as G6P, CYP1B1, CYP3A4, TDO, TAT, GS, GGT, CK8, and EAAT2. They are negative for at least one marker such as cytokeratin-19, CD45, CD34, CD49f, CD133, HLA-DR, and CD117. They have mesenchymal-like morphology. They originate from human adult liver cells.

The present invention relates to compositions and methods for cell transplantation. In particular, the present invention provides a composition comprising procoagulant cells and at least one factor Xa inhibitor, preferably rivaroxaban, as well as at least one thrombin inhibitor, preferably bivalirudin.

The present invention relates to compositions and methods for cell transplantation. In particular, the present invention provides a composition comprising procoagulant cells and at least one factor Xa inhibitor, preferably rivaroxaban, as well as at least one thrombin inhibitor, preferably bivalirudin.