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Electronic Journal of Biotechnology
Universidad Católica de Valparaíso
ISSN: 0717-3458
Vol. 5, Num. 3, 2002, pp. 279-283

Electronic Journal of Biotechnology, Vol. 5, No. 3, December, 2002

TECHNICAL NOTE

A laboratory scale device for microencapsulation of genetically engineered cells into alginate beads

Gabriel León Fiszman1, Armando Luis Karara2, Liliana María Elena Finocchiaro+3, Gerardo Claudio Glikin*+4

1Unidad de Transferencia Genética, Instituto de Oncología "A.H. Roffo" - UBA, Av. San Martín 5481, 1417 Buenos Aires, Argentina, Tel/fax: 54 11 4580 2813, E-mail: gfiszman@ciudad.com.ar
2Unidad de Transferencia Genética, Instituto de Oncología "A.H. Roffo" - UBA, Av. San Martín 5481, 1417 Buenos Aires, ArgentinaTel/fax: 54 11 4580 2813, E-mail: alkarara@hotmail.com
3Unidad de Transferencia Genética, Instituto de Oncología "A.H. Roffo" - UBA, Av. San Martín 5481, 1417 Buenos Aires, Argentina, Tel/fax: 54 11 4580 2813, E-mail: gglikin@bg.fcen.uba.ar
4Unidad de Transferencia Genética, Instituto de Oncología "A.H. Roffo" - UBA, Av. San Martín 5481, 1417 Buenos Aires, Argentina, Tel/fax: 54 11 4580 2813, E-mail: gglikin@bg.fcen.uba.ar
* Corresponding author
+On leave of absence from INGEBI-CONICET/FCEN-UBA

Financial support: This work was partially supported by grants from FONCYT and CABBIO. A.L.K; G.C.G., L.M.E.F. are members of the Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Argentina. G.L.F. is a fellow of BioSidus S.A.

Received July 17, 2002
Accepted October 31, 2002

Code Number: ej02042

Abstract

The microencapsulation of recombinant cells, widely used for in vitro high-density cell culture, is a novel and potentially cost-effective method of in vivo heterologous protein delivery, where the protein producing cells are immunologically protected from tissue rejection. We report here a simple, reliable and inexpensive laboratory method to generate calcium alginate microcapsules containing genetically engineered, interleukin-2 expressing, Chinese hamster ovary (CHO) cells.

Keywords: CHO cells, interleukin-2, protein delivery.

Article

Alginate microencapsulated genetically engineered cells can be used for in vitro recombinant DNA derived protein production as well as for in vivo slow release system of a therapeutic polypeptide. Both applications require the optimisation of alginate beads generation to reproducibly obtain uniformly shaped and sized particles that contain viable producing cells. Such particles allow in vitro high-density cell culture and are also suitable for in vivo intra-tissue injection (Chang et al. 1999).

We report here a simple laboratory method to generate calcium alginate microcapsules containing recombinant human interleukin-2 (rhIL-2) producing Chinese hamster ovary (CHO) cells.

Materials and Methods

Cells culture. Cell CHO-K1 [ATCC #: CCL 61] derived cells were grown at 37ºC in a humidified atmosphere of 95% air and 5% CO2 in complete medium: IMDM/F12 medium (Gibco-BRL, Carlsbad, CA) supplemented with 8% fetal bovine serum (FBS, Gibco-BRL), 2 mM L-glutamine and 25 mM HEPES buffer (pH 7.4). Serial passages were made by trypsinisation (0.25% trypsin and 0.02% EDTA in PBS) of sub-confluent monolayers.

Device assembly. Air jet driven droplet generation was performed by a simple device assembled in our laboratory as depicted in Figure 1. Briefly, a sterile i.v. administration set for gravity infusion was cut with a scalpel both at the tubing 10 cm before and in the middle of the blister and connected to an air flow output filtered by a parallel pair of 0.22 mm disposable filter units (2.5 cm diameter). Piercing the blister, a regular stainless steel injection 27½-gauge needle was placed with its tip under the air tubing outlet. The needle was then connected to a peristaltic pump driving the cells suspended in the sodium alginate solution. A beaker containing CaCl2 collecting solution was placed about 4-5 cm below the needle tip (Figure 1).

Since sterility is a major concern during cell culture, all the system with the exception of the air compressor pump was placed inside a laminar flow hood.

Cells encapsulation. Encapsulation of genetically engineered CHO cells producing rhIL-2 obtained in our laboratory was performed without or with poly-L-lysine coating (Sun, 1988; Ross et al. 1999). Cells were suspended in complete medium containing 1% (wt) low viscosity sodium alginate (Sigma, St. Louis, MO), at a final cell concentration of 1x107 cells/ml. This cell suspension was extruded through a 27½-gauge needle at a rate of 120 ml/hr. The air flow (5-10 L/min) pointed to the tip of the needle producing small droplets that were falling into a beaker containing a 125 mM CaCl2, 2.5 mM glucose and 25 mM Hepes (pH 7.2) solution. The cross-linked alginate polysaccharide polymers formed solid spherical beads containing embedded cells that were transferred to T 25 flasks containing complete medium or to a 50 ml polypropylene tube for further treatment.

For poly-L-lysine coating the beads were washed successively for 3 min with 0.55 and 0.28% CaCl2 in saline, 0.9% saline, 0.1% CHES [2 (N-cyclohexylamino) ethane-sulfonic acid] (pH 8.2), and 1.1% CaCl2. The beads were further cross-linked with 0.05% (w/v) poly-L-lysine (MW 22,000; Sigma) for 6 min, washed with 0.1% CHES, then 1.1% CaCl2 and 0.9% saline, and coated with a second layer of 0.15% alginate for 4 min. The polymer in the core of the capsule was either (i) kept by washing with saline, getting radially arranged cells; or (ii) dissolved by washing for 6 min in 55 mM sodium citrate to get a centred spheroid (Figure 2). After rinsing in serum free medium, these alginate-polylysine-alginate (APA) capsules treated or not with citrate were transferred to complete medium and incubated under regular culture conditions with a culture medium replacement every 48 h.

Quantitative methods. Cell number was estimated in the hemocytometer by trypan blue exclusion staining method by gently crushing a known volume of microcapsules into a known volume of trypsine-EDTA as described above. Cell viability within capsules was measured by spectrophotometry using MTS kit (Promega, Madison, WI). The hrIL-2 microcapsules secretion into the culture medium was measured by an enzyme-linked immunosorbent assay (ELISA) kit for hrIL-2 (R&D Systems, Minneapolis, MN).

Results and Discussion

To encapsulate genetically engineered rhIL-2 secreting CHO cells obtained in our laboratory, we used the assembled system depicted in Figure 1. The air jet flow was usually set between 2 and 10 L/min and cell suspension flow between 120 and 180 ml/h. As expected, microbead diameter decreased with increasing air jet flow (2 to 10 L/min) or decreasing needle diameter (from 19 to 27½-gauge) with bead diameters ranging from 1800 (± 250) to 300 (± 100) mm, respectively.

When encapsulated at an initial density of 3-5x106 cells/ml alginate, capsules containing rhIL-2 secreting CHO cells ranged from 350 to 550 mm in diameter as shown in Figure 2. While alginate and APA capsules showed the typical radially arranged cells (Figure 2a), APA/citrate capsules displayed single centred spheroids (Figure 2b). We did not observe any sign of necrosis within the APA/citrate capsules during the first 30 days of culture.

Alginate as well as APA/citrate capsules resulted resistant to standard manipulations required for laboratory scale culture. The main physical difference between these capsules was the presence of the semi-permeable membrane of APA on the surface of the APA/citrate capsules with a soluble inner filling compared to a semi-solid gel in alginate capsules. Besides the advantage of APA/citrate regarding the immune isolation from any potential humoral host immune response against cells contained into beads, both sorts of capsules displayed a 7- to 8-fold enhancement of transgene expression with respect to monolayer culture, probably due to the three-dimensional configuration of cells growing as muticellular spheroids (data not shown).

As demonstrated by the MTS assay, both alginate and APA/citrate encapsulated cells were maintained in vitro viable for more than 30 days post-encapsulation, producing about 200 ng rhIL-2/million cells/day, without significant differences between groups, as determined by ELISA assay (Figure 3). In some long-term in vitro experiments, there was not any significant loss of rhIL-2 expression up to 60 days post-encapsulation (data not shown).

On the other hand, we performed a preliminary experiment in Balb/c mice using intraperitoneally injected alginate capsules that confirmed the in vivo release of the cytokine. One to three days after injection of capsules containing 1x106 cells, we could detect rhIL-2 serum concentrations ranging from 100 to 300 pg/ml.

This work presents a simple, reliable and inexpensive method to microencapsulate cultured cells in the laboratory, using regular molecular biology and biochemistry laboratory equipment and disposable supplies. All the system can be assembled in few minutes and repeatedly used, while maintained under sterile conditions.

Acknowledgments

We thank G. Sobrido and A. Bihary for technical assistance.

References

  • CHANG, Patricia L., VAN RAAMSDONK, Jeremy M.; HORTELANO, Gonzalo; BARSOUM, Susan C.; MCDONALD, Nicole C. and STOCKLEY, Tracy L.The in vivo delivery of heterologous proteins by microencapsulated recombinant cells. Trends in Biotechnology, February 1999, vol. 17, p. 78-83.
  • ROSS, C.J.D; RALPH, M. and CHANG, P.L. Delivery of Recombinant gene products to the central nervous system with non autologous cells in alginate microcapsules. Human Gene Therapy, 1999, vol. 10, p. 49-59.
  • SUN, Anthony M. Microencapsulation of pancreatic islet cells: a bioartificial endocrine pancreas. Methods in Enzymology, 1988, vol. 137, p. 575-580.

Note: Electronic Journal of Biotechnology is not responsible if on-line references cited on manuscripts are not available any more after the date of publication.

Supported by UNESCO / MIRCEN network 

© 2002 by Universidad Católica de Valparaíso -- Chile


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[ej02042f2.jpg] [ej02042f3.jpg] [ej02042f1.jpg]
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