Patients' opinions 10 years after receiving encapsulated porcine islet xenotransplantation without immunosuppression.

BACKGROUND: Previously we performed clinical encapsulated neonatal porcine islet transplantation under comprehensive regulation, and demonstrated the efficacy and safety. To analyze the patients' quality of life (QOL), we assessed patients' opinions 10 years after islet xenotransplantation. METHODS: Twenty-one type 1 diabetic patients received microencapsulated neonatal porcine islet transplants in Argentina were enrolled. Seven patients were enrolled in efficacy and safety study and 14 patients were enrolled in safety studies. Patients' opinions related to the current and pre-transplant status of diabetes control, blood glucose levels, severe hypoglycemia, and hyperglycemia required hospitalization were analyzed. In addition, opinions related to islet xenotransplantation were assessed. RESULTS: At the time of this survey, average HbA1c was still significantly lower compared to pre-transplantation (8.5 ± 0.9 (%) at pre-transplant and 7.4 ± 0.5(%) at the survey, p < .05) and average insulin dose were also lower (0.95 ± 0.32 (IU/kg) at pre-transplant and 0.73 ± 0.27 (IU) at the survey). The majority of patients improved diabetes control (71%), blood glucose levels (76%), severe hypoglycemia (86%) and hyperglycemia required hospitalization (76%), and no patients deteriorated in all of the categories when compared with pre-transplantation. No patients had cancer, or psychological problem, and one patient had a serious adverse event. The majority of patients wanted to recommend this treatment to other patients (76%) and receive booster transplantation (85.7%). CONCLUSIONS: The majority of patients had positive opinions related to the encapsulated porcine islet xenotransplantation 10 years after transplantation.

Long-term follow-up for the microbiological safety of clinical microencapsulated neonatal porcine islet transplantation.

Enrollment in three clinical trials for microencapsulated neonatal porcine islet xenotransplantation to treat unstable type 1 diabetic patients concluded in November 2014. In this study, we report a long-term follow-up assessment of microbiological safety for these trials. Thirty-eight type 1 diabetic patients received microencapsulated neonatal porcine islet transplants. Islets were isolated and prepared from the pancreata of New Zealand (NZ) based designated pathogen-free (DPF) pigs under GMP conditions. Blood samples of thirty-six patients were collected from 5 to 7 years post-first transplant and were tested by real-time PCR for porcine circovirus-1 (PCV1), porcine circovirus-2 (PCV2), porcine lymphotropic herpesvirus 1 (PLHV1), porcine lymphotropic herpesvirus 2 (PLHV2), and porcine cytomegalovirus (PCMV). To detect porcine endogenous retrovirus (PERV), specific real-time PCR and product enhanced reserve transcriptase (PERT) assays were performed. PCV1, PCV2, PLHV1, PLHV2, PCMV, PERV, and reverse transcriptase (RT) activity remained undetected in all tested samples indicating no viral transmission. Except for one patient that died due to complications unrelated to the transplant, there were no significant adverse events. Microbiological safety was demonstrated for microencapsulated neonatal porcine islet xenotransplantation from 5-7 years post-transplantation consistent with earlier reports.

No PERV transmission during a clinical trial of pig islet cell transplantation.

Xenotransplantation of pig islet cells is a promising alternative for the treatment of diabetes with insulin and may help to prevent numerous late complications such as blindness and amputation. First encouraging results using porcine islets have been reported in preclinical animal models as well in the first clinical trial in New Zealand. The goal of this manuscript is to examine the biological safety of a second trial performed in Argentina, specifically in regards to the transmission of porcine endogenous retroviruses (PERVs) using improved detection methods As in the first trial encapsulated islet cells from the well-characterised Auckland Island pigs were used. The animals were not genetically modified. The islet cells were transplanted in eight human recipients using a modified clinical protocol. Sera taken at different time points after transplantation (up to 55 weeks) were screened for the presence of antibodies against PERV proteins by Western blot analysis using viral antigens from highly purified virus particles. Positive sera obtained by immunization with recombinant PERV proteins were used as control sera. In none of the patients antibodies against PERV were detected, indicating the absence of infection. In parallel at different time points (up to 113 weeks) white blood cells (WBC) have been tested for PERV DNA, and WBC and plasma for PERV RNA by real-time RT-PCR. All tests were negative. In addition, using primers detecting pig mitochondrial cytochrome oxidase (COX) gene, patients were screened for microchimerism. In summary, the data are further evidence for the safety of pig islet cell transplantation.

Clinical Benefit of Islet Xenotransplantation for the Treatment of Type 1 Diabetes.

BACKGROUND: Allogeneic islet transplantation has become a viable option for the treatment of unstable type 1 diabetes. However, the donor shortage and the necessity of the immunosuppressive drugs are two major issues. To solve these issues, we performed islet xenotransplantation using encapsulated neonatal porcine islets without immunosuppressive drugs. METHODS: Two different doses (approximately 5000IEQ/kg and 10,000IEQ/kg) of encapsulated neonatal porcine islets were transplanted twice (total approximately 10,000IEQ/kg and 20,000IEQ/kg) into four type 1 diabetic patients in each group (total 8 patients). FINDINGS: In the higher dose group, all four patients improved HbA1c. This was maintained at a level of <7% for >600days with significant reduction of the frequency of unaware hypoglycemic events. INTERPRETATION: The clinical benefit of islet xenotransplantation with microencapsulation has been shown.

Microbiological safety of the first clinical pig islet xenotransplantation trial in New Zealand.

BACKGROUND: Xenotransplantation using pig cells, tissues, or organs may be associated with the transmission of porcine microorganisms and the development of zoonoses. Among all porcine microorganisms porcine endogenous retroviruses (PERVs) represent a special risk because they are integrated in the genome of all pigs and able to infect human cells. In previous preclinical and retrospective clinical trials of xenotransplantation, no transmission of PERV was observed. The first clinical trial of (alginate-encapsulated) porcine islet cell transplantation in New Zealand, which was approved by the New Zealand Government as an open-label phase I/IIa safety/efficacy trial, offers the possibility to analyze microbiological safety in a prospective clinical study. METHODS: Before the trial started, a multilevel testing strategy was used to screen for 26 microorganisms in donor pigs of the Auckland Island strain and the islet cell preparations used for treatment. Donor testing was performed using molecular methods including multiplex real-time PCR. Blood samples from 14 pig islet cell recipients were also investigated by molecular biological methods at weeks 1, 4, 8, 12, 24, and 52 post-transplant for the transmission of porcine microorganisms. Sera were also monitored at these time points for antibodies against PERVs. RESULTS: Beginning in 2009, fourteen patients with severe unaware hypoglycemia were treated with one of four different dosages of alginate-encapsulated porcine islets ranging from 5000-20,000 islet equivalents delivered in a single dose. No transmission of either PERVs or other porcine microorganisms was detected by PCR and immunological methods. CONCLUSION: These findings support previous results and strongly indicate the safety of xenotransplantation as performed here.

Recovery of neurological functions in non-human primate model of Parkinson's disease by transplantation of encapsulated neonatal porcine choroid plexus cells.

Parkinson's disease (PD) is a neurodegenerative disease that is primarily characterized by degeneration of dopaminergic (DA) neurons in the substantia nigra (SN) and a loss of their fibre projections in the striatum. We utilized the neonatal porcine choroid plexus (CP), an organ that secretes cerebrospinal fluid containing various types of neurotrophic and neuroprotective factors, to ameliorate the Parkinsonian symptoms in MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine)-treated rhesus monkeys without requiring immunosuppression. We demonstrate that transplanted encapsulated CP clusters (eCPs) significantly improved neurological functions in MPTP-treated monkeys during the course of six months after transplantation (p < 0.001) when compared with monkeys implanted with empty capsules or subjected to sham surgery. The improvement in neurological scores was accompanied by a corresponding improvement in apomorphine-induced circling behaviour (p < 0.001) as well as increased tyrosine hydroxylase (TH) staining in the striatum. Our results suggest that eCPs are a promising cell therapeutic agent to treat Parkinson's disease.

Multiplex high resolution melting assay for estimation of Porcine Endogenous Retrovirus (PERV) relative gene dosage in pigs and detection of PERV infection in xenograft recipients.

Porcine Endogenous Retrovirus (PERV) poses an infectious risk in the field of xenotransplantation. This risk may be mitigated by breeding selectively animals bearing favorable PERV genetic characteristics including pigs with low levels of PERV integrated in the genome. A real-time quantitative polymerase chain reaction (PCR) assay employing the Roche High Resolution Melting (HRM) Master was used to estimate the relative gene dosage of PERV pol integrated within the pig genome. When assessed across 99 pigs of the Auckland Island breed numerous animals bearing low gene dosage were identified. The assay was adapted further to perform multiplex PCR for the detection of PERV infection within xenograft recipients. Besides PERV, amplification targets for the multiplex PCR include a pig cell marker for the determination of microchimerism and an internal amplification control (IAC) to assess the efficiency of nucleic acid isolation and effects of PCR inhibition. When 12 patients who had received porcine islet transplants were tested no evidence of PERV infection was found. The assay was shown to be specific, highly reproducible with superior performance over conventional nested PCR. This assay can be used as both a screening tool for PERV proviral levels within donor pigs and as a diagnostic tool to examine PERV transmission in human patients treated with porcine xenotransplantation material.

Absence of transmission of potentially xenotic viruses in a prospective pig to primate islet xenotransplantation study.

Shortage of human donor organs for transplantation has prompted usage of animals as an alternative donor source. Pigs are the most acceptable candidate animals but issues of xenozoonoses remain. Despite careful monitoring of designated pathogen free pigs there is still a risk that their tissues may carry infectious agents. Thus xenotransplantation requires extensive pre-clinical study on safety of the graft especially for those viruses that are either potentially oncogenic and/or immunosuppressive, or can establish persistent infection. A prospective pig-to-primate islet xenotransplantation study was performed which includes monitoring for potentially xenotic viruses namely porcine endogenous retrovirus (PERV), porcine cytomegalovirus (PCMV), porcine lymphotropic herpesvirus (PLHV), and porcine circovirus (PCV) using both molecular diagnostic-PCR and RT-PCR and serology methods. There was no evidence of pig virus transmission into primate recipients. This preclinical study underlines the information concerning viral safety of islet cell xenograft in pig-to-primate xenotransplantation.