Abstract: Methods for derivation, culture, and maturation of small hepatic progenitor cells are described.

Abstract: This disclosure relates generally to methods for generating small hepatocyte progenitor cells (SHPCs) and hematopoietic progenitor cells (HPCs) from human embryonic stem cells, and hematopoietic progenitor cells from primary human endothelial cells and cell lines populations of small hepatocyte progenitor cells and hematopoietic progenitor cells, and uses thereof.

Abstract: Methods for derivation, culture, and maturation of small hepatic progenitor cells are described.

Abstract: This disclosure relates generally to new methods of maintaining the expression of hepatic genes in human hepatocytes and method for maintaining the functional hepatic enzyme activity of primary hepatocytes in culture. The disclosure also encompasses new methods of deriving a population of pure hepatocytes without selecting or sorting the cells from the cultured pluripotent cells.

Abstract: This disclosure relates generally to new methods of maintaining the expression of hepatic genes in human hepatocytes and method for maintaining the functional hepatic enzyme activity of primary hepatocytes in culture. The disclosure also encompasses new methods of deriving a population of pure hepatocytes without selecting or sorting the cells from the cultured pluripotent cells.

Abstract: Methods for derivation, culture, and maturation of small hepatic progenitor cells are described.

Abstract: This invention provides methods for amplifying, detecting, measuring, and identifying miRNAs from biological samples, particularly limited amounts of a biological sample. miRNAs that are differentially expressed in tumor samples and normal tissues are useful as cancer biomarkers for cancer diagnostics.

Abstract: This disclosure relates generally to new methods of maintaining the expression of hepatic genes in human hepatocytes and method for maintaining the functional hepatic enzyme activity of primary hepatocytes in culture. The disclosure also encompasses new methods of deriving a population of pure hepatocytes without selecting or sorting the cells from the cultured pluripotent cells.

Abstract: A method for producing mature hepatocytes having functional hepatic enzyme activity from human pluripotent cells is disclosed. The method includes the step of transferring an external vector comprising the DNA sequence coding for a microRNA having the seed sequence of the microRNA miR-122, the DNA sequence coding for a microRNA having the seed sequence of the microRNA miR-let-7c, a microRNA having the seed sequence of the microRNA miR-122, a microRNA having the seed sequence of the microRNA miR-let-7c, or a combination thereof into one or more fetal hepatocytes. The resulting cells differentiate into mature hepatocytes that exhibit functional hepatic enzyme activity, and can be used in drug metabolism and toxicity testing, in the study of viruses that target hepatic tissue, and as therapeutics. A related method of maintaining the functional hepatic enzyme activity of primary hepatocytes over time is also disclosed.

Abstract: This invention provides methods for amplifying, detecting, measuring, and identifying miRNAs from biological samples, particularly limited amounts of a biological sample. miRNAs that are differentially expressed in tumor samples and normal tissues are useful as cancer biomarkers for cancer diagnostics.

Abstract: A method for producing mature hepatocytes having functional hepatic enzyme activity from human pluripotent cells is disclosed. The method includes the step of transferring an external vector comprising the DNA sequence coding for a microRNA having the seed sequence of the microRNA miR-122, the DNA sequence coding for a microRNA having the seed sequence of the microRNA miR-let-7c, a microRNA having the seed sequence of the microRNA miR-122, a microRNA having the seed sequence of the microRNA miR-let-7c, or a combination thereof into one or more fetal hepatocytes. The resulting cells differentiate into mature hepatocytes that exhibit functional hepatic enzyme activity, and can be used in drug metabolism and toxicity testing, in the study of viruses that target hepatic tissue, and as therapeutics. A related method of maintaining the functional hepatic enzyme activity of primary hepatocytes over time is also disclosed.

Abstract: A method for producing mature hepatocytes having functional hepatic enzyme activity from human pluripotent cells is disclosed. The method includes the step of transferring an external vector that includes a microRNA having the seed sequence of the microRNA miR-122, a DNA sequence coding for such a microRNA, a microRNA having the seed sequence of the microRNA miR-let-7c, a DNA sequence coding for such a microRNA, or a combination these, into one or more fetal hepatocytes. The resulting cells differentiate into mature hepatocytes that exhibit functional hepatic enzyme activity, and that can be used in drug metabolism and toxicity testing, in the study of viruses that target hepatic tissue, and as therapeutics.

Abstract: This invention provides methods for amplifying, detecting, measuring, and identifying miRNAs from biological samples, particularly limited amounts of a biological sample. miRNAs that are differentially expressed in tumor samples and normal tissues are useful as cancer biomarkers for cancer diagnostics.