Abstract: Disclosed herein are methods and compositions for stimulating angiogenesis, using cells descended from marrow adherent stromal cells that have been transfected with sequences encoding a Notch intracellular domain. Applications of these methods and compositions include treatment of ischemic disorders such as stroke.
Abstract: Disclosed herein are cell preparations useful for modulating various peripheral immune functions, methods for making said cell preparations, and methods for their use.
Abstract: It is an object of the present invention to provide a cell-containing composition capable of suppressing the outflow of the cells after transplantation and improving the survival rate of the cells. The present invention provides a composition which comprises any of bone marrow stromal cell-derived neural precursor cells, bone marrow stromal cell-derived Schwann cells, or bone marrow stromal cell-derived skeletal muscle cells; and a biocompatible polymer.
Type:
Application
Filed:
February 6, 2017
Publication date:
May 25, 2017
Applicants:
FUJIFILM Corporation, SanBio, Inc.
Inventors:
Hayato MIYOSHI, Ai OKAMURA, Ciara C. TATE, Monique A. DAO
Abstract: Disclosed herein are cell preparations useful for modulating various peripheral immune functions, methods for making said cell preparations, and methods for their use.
Abstract: There is provided a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells by introduction of a Notch gene. Specifically, the invention provides a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells in vitro, which method comprises introducing a Notch gene and/or a Notch signaling related gene into the cells, wherein the finally obtained differentiated cells are the result of cell division of the bone marrow stromal cells into which the Notch gene and/or Notch signaling related gene have been introduced. The invention also provides a method of inducing, further differentiation of the differentiation-induced neural cells to dopaminergic neurons or acetylcholinergic neurons. The invention yet further provides a treatment method for neurodegenerative and skeletal muscle degenerative diseases which employs neural precursor cells, neural cells or skeletal muscle cells produced by the method of the invention.
Type:
Application
Filed:
June 24, 2016
Publication date:
October 20, 2016
Applicant:
SanBio, Inc.
Inventors:
Mari DEZAWA, Hajime SAWADA, Hiroshi KANNO, Masahiko TAKANO
Abstract: Disclosed herein axe methods and compositions for treating retinal degeneration, such as occurs in retinitis pigmentosa and age-related macular degeneration, using descendents of marrow adherent stem cells that have been engineered to express an exogenous Notch intracellular domain.
Type:
Application
Filed:
March 21, 2016
Publication date:
September 22, 2016
Applicant:
SanBio, Inc.
Inventors:
Casey C. CASE, Toru KAWANISHI, Noriyuki KUNO
Abstract: Disclosed herein are methods and compositions for stimulating angiogenesis, using cells descended from marrow adherent stromal cells that have been transfected with sequences encoding a Notch intracellular domain. Applications of these methods and compositions include treatment of ischemic disorders such as stroke.
Abstract: Disclosed are cells exhibiting neuronal progenitor cell characteristics, and methods of making them from marrow adherent stem cells by regulating cellular pathways in the marrow adherent stem cells that are associated with glial transdifferentiation of the marrow adherent stem cells.
Abstract: There is provided a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells by introduction of a Notch gene. Specifically, the invention provides a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells in vitro, which method comprises introducing a Notch gene and/or a Notch signaling related gene into the cells, wherein the finally obtained differentiated cells are the result of cell division of the bone marrow stromal cells into which the Notch gene and/or Notch signaling related gene have been introduced. The invention also provides a method of inducing further differentiation of the differentiation-induced neural cells to dopaminergic neurons or acetylcholinergic neurons. The invention yet further provides a treatment method for neurodegenerative and skeletal muscle degenerative diseases which employs neural precursor cells, neural cells or skeletal muscle cells produced by the method of the invention.
Type:
Grant
Filed:
January 3, 2013
Date of Patent:
July 26, 2016
Assignee:
SanBio, Inc.
Inventors:
Mari Dezawa, Hajime Sawada, Hiroshi Kanno, Masahiko Takano
Abstract: There is provided a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells by introduction of a Notch gene. Specifically, the invention provides a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells in vitro, which method comprises introducing a Notch gene and/or a Notch signaling related gene into the cells, wherein the finally obtained differentiated cells are the result of cell division of the bone marrow stromal cells into which the Notch gene and/or Notch signaling related gene have been introduced. The invention also provides a method of inducing further differentiation of the differentiation-induced neural cells to dopaminergic neurons or acetylcholinergic neurons. The invention yet further provides a treatment method for neurodegenerative and skeletal muscle degenerative diseases which employs neural precursor cells, neural cells or skeletal muscle cells produced by the method of the invention.
Type:
Application
Filed:
January 3, 2013
Publication date:
June 2, 2016
Applicant:
SANBIO, INC.
Inventors:
Mari Dezawa, Hajime Sawada, Hiroshi Kanno, Masahiko Takano
Abstract: Disclosed herein are methods and compositions for treating retinal degeneration, such as occurs in retinitis pigmentosa and age-related macular degeneration, using descendents of marrow adherent stem cells that have been engineered to express an exogenous Notch intracellular domain.
Type:
Grant
Filed:
March 13, 2013
Date of Patent:
May 3, 2016
Assignee:
SanBio, Inc.
Inventors:
Casey C. Case, Toru Kawanishi, Noriyuki Kuno
Abstract: Disclosed are cells exhibiting neuronal progenitor cell characteristics, and methods of making them from marrow adherent stem cells by regulating cellular pathways in the marrow adherent stem cells that are associated with glial transdifferentiation of the marrow adherent stem cells.
Abstract: There is provided a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells by introduction of a Notch gene. Specifically, the invention provides a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells in vitro, which method comprises introducing a Notch gene and/or a Notch signaling related gene into the cells, wherein the finally obtained differentiated cells are the result of cell division of the bone marrow stromal cells into which the Notch gene and/or Notch signaling related gene have been introduced. The invention also provides a method of inducing further differentiation of the differentiation-induced neural cells to dopaminergic neurons or acetylcholinergic neurons. The invention yet further provides a treatment method for neurodegenerative and skeletal muscle degenerative diseases which employs neural precursor cells, neural cells or skeletal muscle cells produced by the method of the invention.
Type:
Grant
Filed:
September 15, 2011
Date of Patent:
March 3, 2015
Assignee:
SanBio, Inc.
Inventors:
Mari Dezawa, Hajime Sawada, Hiroshi Kanno, Masahiko Takano
Abstract: Disclosed herein are cell preparations useful for modulating various peripheral immune functions, methods for making said cell preparations, and methods for their use.
Abstract: Disclosed herein are methods for the treatment of traumatic brain injury by transplantation of cells descended from marrow adherent stem cells that express an exogenous Notch intracellular domain. The transplanted cells form a pathway along which endogenous neurogenic cells proliferate and migrate from the subventricular zone to the site of injury.
Type:
Application
Filed:
March 13, 2013
Publication date:
July 3, 2014
Applicants:
UNIVERSITY OF SOUTH FLORIDA, SANBIO, INC.
Inventors:
SanBio, Inc, University of South Florida
Abstract: Disclosed herein are methods and compositions for treating retinal degeneration, such as occurs in retinitis pigmentosa and age-related macular degeneration, using descendents of marrow adherent stem cells that have been engineered to express an exogenous Notch intracellular domain.
Type:
Application
Filed:
March 13, 2013
Publication date:
April 10, 2014
Applicant:
SANBIO, INC.
Inventors:
Casey C. Case, Toru Kawanishi, Noriyuki Kuno
Abstract: There is provided a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells by introduction of a Notch gene. Specifically, the invention provides a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells in vitro, which method comprises introducing a Notch gene and/or a Notch signaling related gene into the cells, wherein the finally obtained differentiated cells are the result of cell division of the bone marrow stromal cells into which the Notch gene and/or Notch signaling related gene have been introduced. The invention also provides a method of inducing further differentiation of the differentiation-induced neural cells to dopaminergic neurons or acetylcholinergic neurons. The invention yet further provides a treatment method for neurodegenerative and skeletal muscle degenerative diseases which employs neural precursor cells, neural cells or skeletal muscle cells produced by the method of the invention.
Abstract: Disclosed herein are methods and compositions for stimulating angiogenesis, using cells descended from marrow adherent stromal cells that have been transfected with sequences encoding a Notch intracellular domain. Applications of these methods and compositions include treatment of ischemic disorders such as stroke.
Abstract: Disclosed are cells exhibiting neuronal progenitor cell characteristics, and methods of making them from marrow adherent stem cells by regulating cellular pathways in the marrow adherent stem cells that are associated with glial transdifferentiation of the marrow adherent stem cells.
Abstract: Disclosed herein are cell preparations useful for modulating various peripheral immune functions, methods for making said cell preparations, and methods for their use.