Abstract: A method for initiating metastasis of human tumor cells under experimental conditions is provided. Immunocompromised non-human mammals having a viable, xenogeneic organ or tissue are used as a host for human tumor cells. The cells are introduced into the chimeric animal after the solid tissue is implanted and are then able to grow and metastasize as they would in situ. Therapeutic regimens may be evaluated in this system to determine efficacy against metastatic processes.
Type:
Grant
Filed:
October 26, 1994
Date of Patent:
July 1, 1997
Assignee:
Systemix, Inc.
Inventors:
Reiko Namikawa, Seishi Kyoizumi, Emilya Shtivelman, Joseph M. McCune
Abstract: Xenogeneic tissue is introduced into an immunocompromised host for interacting with agents and using such interaction for evaluating efficacy of drugs and vaccines, producing xenogeneic monoclonal antibodies, evaluating the effect of the various agents on specific tissues and the like. Particularly, drugs can be evaluated for their efficacy against a wide variety of pathogens which infect xenogeneic tissue, agents can be evaluated for their effect on the xenogeneic immune system and monoclonal antibodies to a predetermined epitope may be produced.
Type:
Grant
Filed:
March 1, 1994
Date of Patent:
June 17, 1997
Assignee:
The Board of Trustees for the Leland Stanford Junior University
Abstract: Chimeric immunocompromised hosts are provided, comprising human bone marrow of at least 4 weeks from the time of implantation. The bone marrow is found to assume the normal population of bone marrow except for erythrocytes. The bone marrow may be used to study the effect of various agents on the proliferation and differentiation of hematopoietic cells.
Type:
Grant
Filed:
February 10, 1994
Date of Patent:
May 27, 1997
Assignee:
Systemix, Inc.
Inventors:
Reiko Namikawa, Seishi Kyoizumi, Joseph M. McCune, Hideto Kaneshima
Abstract: A human hematopoietic system is provided in an immunocompromised mammalian host, where the hematopoietic system is functional for extended periods of time. Particularly, human fetal liver tissue and human fetal thymus is introduced into an appropriate site of a young immunocompromised mouse at a site supplied with a vascular system, whereby the fetal tissue results in novel formation of functional human bone marrow tissue.
Type:
Grant
Filed:
May 4, 1995
Date of Patent:
April 29, 1997
Assignee:
SyStemix, Inc.
Inventors:
Hideto Kaneshima, Reiko Namikawa, Joseph M. McCune
Abstract: Immunocompromised hosts comprising xenogeneic fetal lymph node tissue implanted in the ear pinna are provided. The chimeric hosts are prepared by inserting the xenogeneic lymph node tissue into the ear pinna and closing the incision. The tissue is found to be rapidly vascularized and can be productively infected with HIV.
Abstract: Pharmaceutically acceptable, nonimmunogenic compositions are formed by covalently binding glycosaminoglycans or derivatives thereof, to hydrophilic synthetic polymers via specific types of chemical bonds to provide biocompatible conjugates. Useful glycosaminoglycans include hyaluronic acid, the chondroitin sulfates, keratan sulfate, chitin and heparin, each of which is chemically derivatized to react with a hydrophilic synthetic polymer. The conjugate comprising a glycosaminoglycan covalently bound to a hydrophilic synthetic polymer may be further bound to collagen to form a three component conjugate having different properties. The hydrophilic synthetic polymer may be polyethylene glycol and derivatives thereof having an average molecular weight over a range of from about 100 to about 100,000. The compositions may include other components such as fluid, pharmaceutically acceptable carders to form injectable formulations, and/or biologically active proteins such as growth factors or cytokines.
Abstract: Laboratory non-human animals in which the immune system of a human donor is induced in and thrives in vivo and expresses the immune response of the human donor in a recipient non-human animal, and wherein malignant immune system cells of the human donor can be induced in the recipient non-human animal by injection of non-malignant donor cells into the recipient are disclosed.
Abstract: A human hematopoietic system is provided in an immunocompromised mammalian host, where the hematopoietic system is functional for extended periods of time. Particularly, human fetal liver tissue and human fetal thymus is introduced into an appropriate site of a young immunocompromised mouse at a site supplied with a vascular system, whereby the fetal tissue results in novel formation of functional human bone marrow tissue.
Type:
Grant
Filed:
May 17, 1994
Date of Patent:
December 19, 1995
Assignee:
Systemix, Inc.
Inventors:
Hideto Kaneshima, Reiko Namikawa, Joseph M. McCune
Abstract: Methods and chimeric immunocompromised hosts comprising functional xenogeneic organs are provided, particularly hematopoietic organs, where the xenogeneic organ is engrafted into a mammary fat pad. Exemplary is the engrafting of lymph node with mesenteric tissue comprising small portions of blood vessels transplanted into mammary fat pad of a scid/scid mouse. The engraftment in the mammary fat pad provides for efficiencies in transplantation, higher success rate of transplantation, and improved growth of the transplanted organ.
Abstract: Human lymphoid tissue is introduced into an immunocompromised host to provide opportunities to investigate the effect of stimuli on the human immune system and obtain information and products from the stimulus. Particularly, methodology is provided for the production of human monoclonal antibodies by introducing lymphoid tissue into an immunocompromised host, stimulating the B-lymphocytes with an appropriate immunogen, harvesting the tissue and immortalizing and/or cloning the B-lymphocytes under conditions to obtain a stable supply of monoclonal antibodies.
Type:
Grant
Filed:
December 23, 1992
Date of Patent:
May 2, 1995
Assignee:
Systemix, Inc.
Inventors:
Susan K. Mayo, Reiko Namikawa, Hideto Kaneshima, Joseph M. McCune
Abstract: The invention relates to a medicament in the form of a lyophilisate produced from a total extract from Peyer's patches, preferably in homoeopathic dilution. It can be used advantageously for the improvement of the humoral defence system.
Abstract: There is provided an improved process for enhanced LAK cell activation wherein the peripheral blood mononuclear cells are treated with an amino acid amide to yield depletion, prior to the lymphocytes being cultured at high density. Also provided are pharmaceutical compositions and methods of using them in combination with IL-2 to treat cancer in a mammal.