S. K. Young scite author profile

The utilization and distribution of radioactively labeled lipid emulsions were evaluated in Sprague-Dawley rats. Animals received one of three lipid emulsions. Group 1 received [14C]medium-chain-triglyceride (MCT) lipid emulsion, group 2 received a 75%:25% (vol:vol) admixture of [14C]MCT: unlabeled long-chain-triglyceride (LCT) lipid emulsion, and group 3 received only [14C]LCT. The radioactive dose appearing in expired carbon dioxide and various body tissues was monitored over a 24-h period. Results indicate that MCT is oxidized more rapidly and completely than in LCT; approximately 90% of the MCT is converted to carbon dioxide with in 24 h compared with 45% for LCT. When MCT and LCT are administered together, the metabolism of MCT is slowed but remains more rapid than that of LCT. Removal of MCT from the blood was more rapid than was removal of LCT, and tissue radioactivity was lower.

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Correction of diabetic nod mice with insulinomas implanted within Baxter immunoisolation devices

Loudovaris

Jacobs

Young

et al. 1999

Journal of Molecular Medicine

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Insulin replacement by injection is clearly not a cure for Insulin Dependent Diabetes Mellitus (IDDM). Replacement of the destroyed islets by pancreas or islet allograft transplantation can achieve the good metabolic control required to prevent diabetic complications, but tissue supply is limited. The problem of islet supply to treat the 1 million IDDM patients in the USA could be overcome by using immortalized islet beta-cells as a donor source. However, before either allogeneic or xenogeneic immortalized beta-cells are used, some major problems have to be overcome: control of immortalized cell growth, allograft or xenograft rejection and recurrence of autoimmunity. To tackle these problems we have used a cell impermeable immunoisolation device containing mouse insulinoma cells. Transplantation of devices with insulinomas from NOD mice carrying the Rat-insulin promoter regulated SV40 T-Antigen transgene (RIP-TAg), normalized the blood glucose levels of diabetic NOD mice. Insulinomas from allogeneic CBA/NOD-RIP-TAg mice were also capable of normalizing diabetic NOD mice. Not only were non-fasting blood glucoses normalized but when given an intraperitoneal injection of glucose, the corrected mice had a near normal clearance of glucose from the blood. When the devices were removed from normalized mice they became diabetic again, demonstrating that the immunoisolation device was capable of protecting against both alloimmune and autoimmune destruction. The results with allogeneic mouse beta-cells suggest the possibility that immortalized human beta-cells could be an effective source of tissue to correct diabetes in IDDM patients without the use of immunosuppression.

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Local Inflammatory Response Around Diffusion Chambers Containing Xenografts

Brauker¹,

Martinson²,

Young³

et al. 1996

Transplantation

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Immunoisolation of xenogeneic pancreatic islets within membrane-bound devices has been proposed as an approach to cure diabetes. We examined the local response to implanted xenografts and allografts in comparison with isografts in diffusion chambers with 0.4-microm pore membranes when implanted into epididymal fat pads of rats. These membranes prevented host cell entry into the device but did not prevent passage of large molecules such as IgG and IgM. Well-differentiated allogeneic tissues (Sprague-Dawley rat embryonic lung implanted into Lewis rats) survived for 1 year when implanted in intact devices, but similar tissues were destroyed within 3 weeks when implanted within devices with holes poked in the membrane to allow host cell contact. In contrast, xenografts (CF1 mouse embryonic lung implanted into Lewis rats) were destroyed within 3 weeks even when implanted in devices with intact membranes. The death of the xenogeneic tissues was accompanied by a severe local accumulation of inflammatory cells and a decrease in local vascularization. When isogeneic tissues (Lewis rat embryonic lung implanted in Lewis rats) were mixed with xenogeneic tissues, a local inflammatory response occurred and both iso- and xenogeneic tissues were destroyed within 5 weeks. These results suggest the possibility that xenografts are killed by local accumulation of inflammatory cells, perhaps mediated by the release of antigens from the tissues within the device and presentation by an indirect pathway. The observation that the local response to xenografts is sufficient to kill isografts complicates issues of immunoprotection, suggesting that successful immunoisolation will require membranes that not only provide protection of the encapsulated tissues from the host immune system but also have properties that diminish the release of xenogeneic antigens.

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In vivo delivery of recombinant human growth hormone from genetically engineered human fibroblasts implanted within Baxter immunoisolation devices

Josephs

Loudovaris

Dixit

et al. 1999

Journal of Molecular Medicine

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Continuous delivery of therapeutic peptide to the systemic circulation would be the optimal treatment for a variety of diseases. The Baxter TheraCyte system is a membrane encapsulation system developed for implantation of tissues, cells such as endocrine cells or cell lines genetically engineered for therapeutic peptide delivery in vivo. To demonstrate the utility of this system, cell lines were developed which expressed human growth hormone (hGH) at levels exceeding 1 microgram per million cells per day. These were loaded into devices which were then implanted into juvenile nude rats. Significant levels of hGH of up to 2.5 ng/ml were detected in plasma throughout the six month duration of the study. In contrast, animals implanted with free cells showed peak plasma levels of 0.5 to 1.2 ng four days after implantation with no detectable hGH beyond 10 days. Histological examination of explanted devices showed they were vascularized and contained cells that were viable and morphologically healthy. After removal of the implants, no hGH could be detected which confirmed that the source of hGH was from cells contained within the device. The long term expression of human growth hormone as a model peptide has implications for the peptide therapies for a variety of human diseases using membrane encapsulated cells.

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Transplantation of Cells in an lmmunoisolation Device for Gene Therapy

Carr-Brendel¹,

Geller²,

Thomas³

et al.

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S. K. Young

Medium-chain-triglyceride lipid emulsion: metabolism and tissue distribution

Correction of diabetic nod mice with insulinomas implanted within Baxter immunoisolation devices

Local Inflammatory Response Around Diffusion Chambers Containing Xenografts

In vivo delivery of recombinant human growth hormone from genetically engineered human fibroblasts implanted within Baxter immunoisolation devices

Transplantation of Cells in an lmmunoisolation Device for Gene Therapy

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