Cell therapy with encapsulated xenogeneic tumor cells secreting β-endorphin for treatment of peripheral pain

Abstract

The purpose of this study was to assess whether xenogeneic tumor cells secreting β-endorphin and immunologically isolated in polymer capsules could survive and continue to reduce pain when transplanted into the spinal cerebro-spinal fluid (CSF) space of rats. Also, a silicone container for polymer capsules was designed for the clinical application of this method of cell therapy. The mouse tumor cell lines, proopiomelanocortin gene transfected Neuro 2A which secrete β-endorphin, were enclosed in polymer capsules at a density of 5 × 10 6/mL, and transplanted into the spinal CSF space from the occipito-atlantal junction of male Sprague-Dawley rats. Three analgesiometric tests—the tail pinch test, the hot plate test, and electrical stimulation test — showed that the rats with encapsulated Neuro2A ( n = 6) were significantly less sensitive to pain after transplantation than control animals ( n = 8). The analgesia induced by the encapsulated cells secreting β-endorphin was attenuated by the opiate antagonist naloxone. Morphological study revealed that the encapsulated cells survived for 1 mo after transplantation into the CSF space. An in vitro experiment on cultured capsules (3 cm long) with a silicone container (Kaneka Medics Co) showed that the encapsulated Neuro2A (5 × 10 6 mL) could secrete peptides for 1 mo. The results of this study indicate that immunologically isolated xenogeneic tumor cells can secrete opiate in the CSF space, and that a silicone container may help the application of this method to the treatment of cancer pain.