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Methods for enhancing yield of stem cell cultures and enhancing stem cell therapy

a stem cell culture and stem cell technology, applied in the field of stem cell culture yield enhancement and stem cell therapy, can solve the problems of cell therapy generated cells having the potential to develop genomic abnormalities, reduce the efficacy of cell therapy, and reduce the quality of life of many patients, so as to enhance genomic stability and reduce the effect of cell therapy

Inactive Publication Date: 2011-12-08
CEDARS SINAI MEDICAL CENT
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0007]Cell therapy, the introduction of new cells into a tissue in order to treat a disease, represents a possible method for repairing or replacing diseased tissue with healthy tissue. However, cells generated for cell therapies have the potential to develop genomic abnormalities when being processed for regenerative therapies. Such abnormalities could lead to reduced efficacy of the cell therapy or to neoplastic development at the target tissue. Accordingly, it is highly desirable to provide methods and compositions for generating cells for cellular therapy that have enhanced genomic stability.
[0008]In several embodiments, there is provided a method for reducing the incidence of karyotypic abnormalities in cardiac stem cells for use in the repair or regeneration of cardiac tissue, comprising isolating cardiac stem cells and culturing the isolated stem cells in a culture media supplemented with an antioxidant composition. In several embodiments, the cells are isolated from healthy mammalian non-embryonic cardiac tissue, and then cultured.
[0009]In several embodiments there is provided a composition for reducing the incidence of karyotypic abnormalities in cultured cardiac stem cells, the composition comprising at least one peptide antioxidant, at least one non-peptide antioxidant; and a culture media suitable for culturing cardiac stem cells, wherein the culture media is supplemented with the at least one peptide antioxidant and the at least one non-peptide antioxidant.

Problems solved by technology

Coronary heart disease can deteriorate into heart failure for many patients.
Regardless of the etiology of their conditions, many of those suffering from coronary heart disease or heart failure have suffered permanent heart tissue damage, which often leads to a reduced quality of life.
However, cells generated for cell therapies have the potential to develop genomic abnormalities when being processed for regenerative therapies.
Such abnormalities could lead to reduced efficacy of the cell therapy or to neoplastic development at the target tissue.
However, in some cases, too great a metabolic rate may overwhelm the antioxidant composition, thereby requiring additional time in culture, increased concentrations of the compositions disclosed herein, or combinations of both.

Method used

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  • Methods for enhancing yield of stem cell cultures and enhancing stem cell therapy
  • Methods for enhancing yield of stem cell cultures and enhancing stem cell therapy
  • Methods for enhancing yield of stem cell cultures and enhancing stem cell therapy

Examples

Experimental program
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Effect test

example 1

Genomic Alterations Decrease In Physiological Oxygen But Unexpectedly Increase With Antioxidant Supplements

[0122]Source human heart biopsies (n=16) were divided and processed in parallel in the various culture conditions, facilitating direct comparisons. CDCs grown under conventional conditions not infrequently included cells with genomic alterations (6 of 16 samples; FIG. 1, Table 1 and Table 2). In reference to FIG. 1, each bar represents a histogram of one sample of stem cells; blue denotes cells with a normal karyotype. Compared with culture in traditional 20% O2 incubator (95% room air / 5% CO2), the number of cells with DNA breaks or translocations (colored green) and losses or gains of chromosomes (red) was decreased when cells were cultured in 5% O2 (p=0.007). When CDCs were cultured in 5% O2, genomic alterations were detected in only 3 of 16 samples (FIG. 1, Table 2). The genomic changes were relatively innocuous: one sample contained one cell with a balanced translocation, a...

example 2

Antioxidants Decrease Intracellular ROS Monotonically But DNA Damage Shows A Biphasic Response In Stem Cells

[0127]CDCs were initially maintained in traditional 5% CO2 / 20% O2 culture condition and then seeded into 96-well plates and cultured for 24 hours under experimental conditions. Intracellular ROS levels in CDCs exposed for 24 hours to a wide range of antioxidant concentrations (A-B), with catalase (a pure ROS scavenger, C) and hydrogen peroxide (H2O2, a powerful oxidant, D) as controls were measured. The results shown in FIG. 5 are means±Std. Dev. for six separate experiments using different twice-passaged CDCs. (a.u.: arbitrary units. *p<0.01, †p<0.05 vs. the baseline levels., represented by “0” on the x-axis). The results shown in FIG. 6 are representative histograms of the intracellular ROS data obtained by flow cytometry

[0128]Catalase decreased, and H2O2 increased, ROS levels in a progressive dose-dependent manner (FIG. 5C-D, FIG. 6C-D). Like catalase, antioxidants A and B ...

example 3

Extreme Suppression of Intracellular ROS Down-Regulates ATM And Other DNA Repair Factors

[0133]The protein kinase ATM (ataxia-telangiectasia mutated), is believed to play a role in DNA repair. Intracellular ROS enhances the expression of ATM, which phosphorylates a host of downstream targets in response to DNA double-strand breaks, inducing cell cycle arrest and inhibiting apoptosis. It is possible that excessive suppression of ROS levels might down-regulate ATM, thereby promoting genomic instability. ATM protein levels were indeed decreased at high concentrations of antioxidants A and B (≧1000-fold dilution, (>100 μM, respectively), or catalase (≧100 units / ml) (FIG. 10A-C). As shown in Panel A, the protein levels of ATM in CDCs were decreased at high doses (≦1000-fold dilution), but not at low doses (≧10,000-fold dilution) of antioxidant supplements (Antioxidant A). Panel B shows that ATM protein in CDCs decreases at ≧100 μM, but not at ≦10 μM, of custom antioxidant cocktail (Antiox...

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Abstract

The present application relates to methods and compositions for the generation of therapeutic cells having reduced incidence of karyotypic abnormalities. In several embodiments cardiac stem cells are cultured in an antioxidant-supplemented media that reduces levels of reactive oxygen species, but does not down regulate DNA repair mechanisms. In several embodiments, physiological oxygen concentrations are used during culture in order to increase the proliferation of stem cells, decrease the senescence of the cells, decrease genomic instability, and / or augment the functionality of such cells for cellular therapies.

Description

RELATED CASES[0001]This application is a continuation of U.S. application Ser. No. 13 / 096,931, filed on Apr. 28, 2011, which claims the benefit of U.S. Provisional Application No. 61 / 330,251 filed on Apr. 30, 2010, the contents of which is expressly incorporated by reference herein.STATEMENT REGARDING GOVERNMENT SPONSORED GRANT[0002]This invention was made with Government support under the Research Project Grant (R01HL083109) by the National Institutes of Health. The United States Government has certain rights in this invention.BACKGROUND[0003]1. Field of the Invention[0004]The present application relates generally to methods and compositions for generating genomically stable stem cells for the repair or regeneration of damaged cells or tissue. For example, in several embodiments the methods and compositions disclosed herein may be used for the repair and / or regeneration of cardiac tissue. In particular, isolated cardiac cells are cultured in oxygen concentrations and / or in the pres...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A61K35/12A61P9/00C12N5/077
CPCC12N5/0657C12N5/0662C12N2501/998C12N2500/38C12N2500/02A61P9/00
Inventor MARBAN, EDUARDOLI, TAO-SHENG
Owner CEDARS SINAI MEDICAL CENT
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