Drug – bio-affecting and body treating compositions – Whole live micro-organism – cell – or virus containing – Genetically modified micro-organism – cell – or virus
Reexamination Certificate
2000-04-05
2002-03-26
Nguyen, Dave T. (Department: 1632)
Drug, bio-affecting and body treating compositions
Whole live micro-organism, cell, or virus containing
Genetically modified micro-organism, cell, or virus
C435S320100, C435S325000, C435S455000, C435S366000, C435S371000, C604S890100, C604S043000, C604S093010
Reexamination Certificate
active
06361771
ABSTRACT:
TECHNICAL FIELD OF THE INVENTION
This invention relates generally to cellular therapy and encapsulated devices.
BACKGROUND OF THE INVENTION
Growth factors have tremendous therapeutic potential for neurodegenerative disorders. However, growth factors have yet to be successfully developed into clinical treatments due to the fact that large proteins, like growth factors, do not cross the blood-brain barrier. The transplantation of cells genetically engineered to produce growth factors offers a partial solution to the problem of growth factor delivery, because grafts of growth factor-producing cells can bypass the blood-brain barrier and deliver the therapeutic factors directly to the target site. Unfortunately, these transplants are subject to host immune rejection and require immunosuppression. Also, grafts of some genetically engineered cell lines can form lethal tumors.
Implanting cells that have been macroencapsulated in semi-permeable polymer membranes provides a better solution to these problems. Mammalian cells that have been genetically engineered to produce growth factors can be encapsulated in semipermeable polymer membranes. The semipermeable membranes protect the encapsulated cells from acute host immune rejection, but allow the delivery of the therapeutic agents into the host tissue. These small bioartificial devices (cells macroencapsulated in semipermeable membranes) can be implanted directly into the target site for site-specific, continuous, long-term, low-level delivery of the desired factors. Encapsulating cells in semi-permeable membranes also reduces the risk of tumor development. Furthermore, polymer-encapsulated cell transplants have lower incidences of infection, because the transplants require only a single penetration into the target site for continuous growth factor delivery.
Regarding the delivery of desired growth factors, pre-clinical studies have shown that polymer-encapsulated cells can deliver ciliary neurotrophic factor (CNTF) continuously with therapeutic efficacy in rodent models (Emerich et al., 16 J. Neurosci. 5168-81 (1996)). Clinical trials support the safety of chronic CNTF delivery into the human central nervous system (CNS) with polymer-encapsulated cells (Aebischer et al., 7 Hum. Gene Ther. 851-60 (1996), Aebischer et al., 2 Nature Medicine 696-9 (1996)). However, a major challenge in translating such successes from rodent models to humans is ensuring long-term cell viability in encapsulated devices in vivo.
SUMMARY OF THE INVENTION
The ARPE-19 cell line is a superior platform cell line for encapsulated cell based delivery technology and is also useful for unencapsulated cell based delivery technology. The ARPE-19 cell line is hardy (i.e., the cell line is viable under stringent conditions, such as implantation in the central nervous system or the intra-ocular environment). ARPE-19 cells can be genetically modified to secrete a substance of therapeutic interest. ARPE-19 cells have a relatively long life span. ARPE-19 cells are of human origin. Furthermore, encapsulated ARPE-19 cells have good in vivo device viability. ARPE-19 cells can deliver an efficacious quantity of growth factor. ARPE-19 cells elicit a negligible host immune reaction. Moreover, ARPE-19 cells are non-tumorigenic.
The therapeutic usefulness of polymer-encapsulated ARPE-19 cell-based delivery of ciliary neurotrophic factor (CNTF) for treatment of degenerative diseases was shown in both a rodent and canine model of retinitis pigmentosa. ARPE-19 cells were genetically modified to secrete CNTF. Encapsulated genetically modified ARPE-19 cells delivered a consistent amount of CNTF, for example, over a 7-week implantation interval. Cell viability within the encapsulated devices was excellent. The presence of the encapsulated cell device in the eye caused no significant adverse effects on the retina. These results provide a proof of principle for the therapeutic potential of encapsulated ARPE-19 cell-based delivery of desired neurotrophic factors.
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Dean Brenda J.
Goddard Moses B.I.
Rein David H.
Stabila Paul F.
Tao Weng
Elrifi, Esq. Ivor R.
Karnakis, Esq. Christina V.
Mintz Levin Cohn Ferris Glovsky and Popeo PC
Neurotech S.A.
Nguyen Dave T.
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