USA flag logo/image

An Official Website of the United States Government

Adult human skeletal muscle stem cells for functional repair

Award Information

Agency:
Department of Health and Human Services
Branch:
N/A
Award ID:
85232
Program Year/Program:
2007 / SBIR
Agency Tracking Number:
AG029705
Solicitation Year:
N/A
Solicitation Topic Code:
N/A
Solicitation Number:
N/A
Small Business Information
CELLCURE, INC.
135 PROSPECT STREET PROVIDENCE, RI 02906
View profile »
Woman-Owned: No
Minority-Owned: No
HUBZone-Owned: No
 
Phase 1
Fiscal Year: 2007
Title: Adult human skeletal muscle stem cells for functional repair
Agency: HHS
Contract: 1R43AG029705-01
Award Amount: $500,002.00
 

Abstract:

DESCRIPTION (provided by applicant): Cell Cures' technology utilizes easily isolated and well characterized adult human skeletal muscle stem cells (satellite cells or myoblasts). These striated muscle progenitor cells provide an expandable source of prolif erating cells which have already been utilized in numerous clinical trials. While the injection of the proliferating myoblasts has proven clinically safe in hundreds of adult patients, their survival and contractile function following transplantation into skeletal or cardiac muscle tissue has been severely limited due to poor cell survival and limited differentiation. The overall goal of this SBIR Phase 1 project is to develop a more effective method for the implantation of striated muscle cells for muscle repair applications. Human progenitor myoblasts can be partially differentiated in vitro into organized muscle tissue containing immature multinucleated post mitotic neonatal-like muscle fibers called 'myotubes'. The bioengineered construct, called a human 'bioartificial muscle' (HBAM), contains myotubes of small diameter (5-10 fm) which are poorly striated, and when electrically stimulated, generate active forces which are only 2-3% of a normal adult muscle. Further differentiation of these immature HBAM m yotubes into more differentiated and contractile muscle tissue would allow their use in regeneration/repair clinical applications. HBAM myotube to myofiber differentiation will be studied following implantation into the skeletal muscle bed of the immunodef icient NOD-SCID mouse by analyzing myofiber size, striations, sarcomeric protein content, myosin heavy chain isotypes, viscoelastic properties and active force generation. In vivo muscle differentiation will be compared to injected proliferating myoblasts and to HBAMs maintained in vitro in perfusion bioreactors. Possible innervation of the in vivo human myofibers will be determined by neuromuscular and axonal histological analyses. Vascularization of the implanted tissue will be analyzed histologically. Fi nally, HBAMs will be implanted into a severely damaged NOD-SCID mouse muscle bed and repair of the host muscle followed over a 30 day period. In these studies, a subgroup of HBAMs genetically engineered to locally secrete the anabolic muscle growth factor insulin-like growth factor 1 (IGF1) will be implanted. It is hypothesized that the local in vivo muscle bed will provide the nutrient, growth factors and mechanical environment for the further differentiation of skeletal muscle into a functional tissue cap able of repairing damaged muscle tissue. The results of these studies will establish an improved protocol for implanting striated muscle precursor cells for the functional repair of damaged or diseased contractile tissues, and provide the basis for a large animal SBIR Phase 2 preclinical study. Musculoskeletal disorders affect greater than 60 million individuals in the U.S. today and the annual health care costs resulting from skeletal muscle weakness resulting from disease or aging is hundreds of billions of dollars. Few drugs are currently available to treat these disorders and CellCure, Inc. is developing a cell-based implantation technology using bioengineered muscle tissue for both muscle damage repair and to attenuate skeletal muscle weakness which occ urs from the muscle loss associated with aging.

Principal Investigator:

Herman H. Vandenburgh
4013318500
HERMAN_VANDENBURGH@BROWN.EDU

Business Contact:

Adele J. Vandenburgh
Small Business Information at Submission:

CELLCURE, INC.
135 PROSPECT STREET PROVIDENCE, RI 02906

EIN/Tax ID: 331122305
DUNS: N/A
Number of Employees: N/A
Woman-Owned: No
Minority-Owned: No
HUBZone-Owned: No