Novel therapy for insulin-dependent diabetes mellitus: infusion of in vitro-generated insulin-secreting cells.

Insulin-dependent diabetes mellitus (IDDM) is a metabolic disease usually resulting from autoimmune-mediated ß-cell destruction requiring lifetime exogenous insulin replacement. Mesenchymal stem cells (MSC) hold promising therapy. We present our experience of treating IDDM with co-infusion of in vitro autologous adipose tissue-derived MSC-differentiated insulin-secreting cells (ISC) with hematopoietic stem cells (HSC). This was an Institutional Review Board approved prospective non-randomized open-labeled clinical trial after informed consent from ten patients. ISC were differentiated from autologous adipose tissue-derived MSC and were infused with bone marrow-derived HSC in portal, thymic circulation by mini-laparotomy and in subcutaneous circulation. Patients were monitored for blood sugar levels, serum C-peptide levels, glycosylated hemoglobin (Hb1Ac) and glutamic acid decarboxylase (GAD) antibodies. Insulin administration was made on sliding scale with an objective of maintaining FBS < 150 mg/dL and PPBS around 200 mg/dL. Mean 3.34 mL cell inoculums with 5.25 × 10(4) cells/µL were infused. No untoward effects were observed. Over a mean follow-up of 31.71 months, mean serum C-peptide of 0.22 ng/mL before infusion had sustained rise of 0.92 ng/mL with decreased exogenous insulin requirement from 63.9 international units (IU)/day to 38.6 IU/day. Improvement in mean Hb1Ac was observed from 10.99 to 6.72%. Mean GAD antibodies were positive in all patients with mean of 331.10 IU/mL, which decreased to mean of 123 IU/mL. Co-infusion of autologous ISC with HSC represents a viable novel therapeutic option for IDDM.

Extrinsic factors promoting in vitro differentiation of insulin-secreting cells from human adipose tissue-derived mesenchymal stem cells.

Understanding of ß cell regeneration is needed to develop new treatment modalities in diabetes mellitus. We present our experience of glucose-sensitive insulin-secreting mesenchymal stem cells (IS-MSC) generated and differentiated from human adipose tissue (h-AD) with application of specific differentiation media, sans xenogenic material. h-AD from donor abdominal wall was collected in proliferation medium composed of α-Minimum Essential Media, albumin, fibroblast-growth factor and antibiotics, minced, incubated in collagenase I at 37 °C with shaker and centrifuged. Supernatant and pellets were separately cultured in proliferation medium on cell + plates at 37 °C with 5 % CO(2) for 10 days. Cells were harvested, checked for viability, sterility, quantification, flow-cytometry (CD45(-)/90(+)/73(+)), and differentiated into insulin-expressing cells using medium composed of Dulbecco's modified eagle's medium, gene expressing upregulators and antibiotics for 3 days. They were studied for transcriptional factors paired box genes-6(Pax-6), islet 1 transcriptional factor (Isl-1), pancreatic and duodenal homobox-1(Pdx-1). C-peptide and insulin were measured by chemiluminescence. IS-MSC showed presence of all three transcriptional factors and showed rise in insulin and c-peptide level in presence of glucose stimuli. It can be concluded that the specific extrinsic factors used in the defined differentiation media effectively and safely promote differentiation of glucose-sensitive insulin-secreting cells from human adipose tissue, without any genetic modulation.

The effect of stem cell transplantation on immunosuppression in living donor renal transplantation: a clinical trial.

BACKGROUND/OBJECTIVE: We designed a clinical trial on a group of live-donor renal transplantation (LDRT) patients subjected to pre-transplant stem cell transplantation (SCT) to minimize immunosuppression to low-dose steroid monotherapy. METHODS: LDRT patients subjected to pretransplant SCT who had stable graft function for ≥2 years and serum creatinine (SCr) <2 mg/dL were recruited. Patients with diabetes, hepatitis C/B, rejections, or unwilling to participate, were excluded. They had been subjected to non-myeloablative conditioning of total lymphoid irradiation (TLI)/bortezomib and cyclophosphamide, rabbit-antithymocyte globulin (r-ATG) and rituximab with SCT. The maintenance immunosuppression consisted of calcineurin inhibitors (CNI) and/or anti-proliferative agents and prednisone. Donor-specific antibodies (DSA) and peripheral T-regulatory cells (CD127(low/-)/4(+)/25(high)) (p-Tregs) were studied before and after withdrawal of major immunosuppressants; graft biopsy was taken after 100 days of withdrawal in willing patients. Rejections were planned to be treated by anti-rejection therapy followed by rescue immunosuppression. RESULTS: All immunosuppression but prednisone, 5-10 mg/day has been successfully withdrawn for a mean of 2.2 years in 76 patients with a mean age of 31.4 years and a mean donor-recipient HLA match of 2.9. The mean SCr of 1.4 mg/dL and p-Tregs of 3.5% was remained stable after withdrawal; DSA status was negative in 35.5% and positive in 47.4% patients. Protocol biopsies in all 10 patients who gave the consent were unremarkable. CONCLUSION: Stable graft function in LDRT on low-dose steroid monotherapy using pre-transplant SCT under non-myeloablative conditioning with generation of p-Tregs can be achieved successfully and safely.

Cotransplantation of adipose tissue-derived insulin-secreting mesenchymal stem cells and hematopoietic stem cells: a novel therapy for insulin-dependent diabetes mellitus.

Aims. Insulin dependent diabetes mellitus (IDDM) is believed to be an autoimmune disorder with disturbed glucose/insulin metabolism, requiring life-long insulin replacement therapy (IRT), 30% of patients develop end-organ failure. We present our experience of cotransplantation of adipose tissue derived insulin-secreting mesenchymal stem cells (IS-AD-MSC) and cultured bone marrow (CBM) as IRT for these patients. Methods. This was a prospective open-labeled clinical trial to test efficacy and safety of IS-AD-MSC+CBM co-transplantation to treat IDDM, approved by the institutional review board after informed consent in 11 (males : females: 7 : 4) patients with 1-24-year disease duration, in age group: 13-43 years, on mean values of exogenous insulin requirement of 1.14 units/kg BW/day, glycosylated hemoglobin (Hb1Ac): 8.47%, and c-peptide levels: 0.1 ng/mL. Intraportal infusion of xenogeneic-free IS-AD-MSC from living donors, subjected to defined culture conditions and phenotypically differentiated to insulin-secreting cells, with mean quantum: 1.5 mL, expressing Pax-6, Isl-1, and pdx-1, cell counts: 2.1 × 10(3)/µL, CD45(-)/90(+)/73(+):40/30.1%, C-Peptide level:1.8 ng/mL, and insulin level: 339.3 IU/mL with CBM mean quantum: 96.3 mL and cell counts: 28.1 × 10(3)/µL, CD45(-)/34(+):0.62%, was carried out. Results. All were successfully transplanted without any untoward effect. Over mean followup of 23 months, they had a decreased mean exogenous insulin requirement to 0.63 units/kgBW/day, Hb1Ac to 7.39%, raised serum c-peptide levels to 0.38 ng/mL, and became free of diabetic ketoacidosis events with mean 2.5 Kg weight gain on normal vegetarian diet and physical activities. Conclusion. This is the first report of treating IDDM with insulin-secreting-AD-MSC+CBM safely and effectively with relatively simple techniques.

Clonal deletion using total lymphoid irradiation with no maintenance immunosuppression in renal allograft recipients.

A total of 69 individuals received a kidney from a living donor after a TLI-based clonal deletion protocol with no post-transplant maintenance immunosuppression planned. If needed, immunosuppression was started on a patient-specific basis, adding one drug at a time, a strategy we AWN". call "Drugs Added When Needed," or "DAWN. Following this strategy, at last follow-up 40 of the 69 patients (58%) had to be rescued by conventional immunosuppression, 23 (33%) had to be started on daily prednisone and six (9%) remained with no maintenance immunosuppression. The overall rate of de novo donor-specific antibody produced was 36% (in 25 of the 69 patients), and mean time to detection was about four months. The incidence of acute rejection episodes that displayed humoral components was 27% (19 cases), of which 14 were pure antibody-mediated rejection, five combined antibody- and T-cell-mediated rejection, and six were episodes (9%) of pure T-cell-mediated rejection. Finally, this study shows that although complete clonal deletion was not achieved, an important proportion of patients--42%, or 29 of the original 69--could be maintained with prednisone alone or even with no immunosuppression for a total mean follow-up of 13.3 months. Moreover, 16 patients with recent follow-up are surviving with no maintenance immunosuppression or just on prednisone. The mean serum creatinine at last follow-up for these 16 patients is 1.33 +/- 0.2 mg/dL with a mean follow-up of 19.3 months. Clonal deletion can be used to transplant patients without maintenance immunosuppression, adding drugs only as needed.

Human adipose tissue-derived mesenchymal stem cells combined with hematopoietic stem cell transplantation synthesize insulin.

BACKGROUND: Type 1 diabetes mellitus (DM) is an autoimmune disorder with disturbed glucose/insulin metabolism, which has no medical treatment other than life-long insulin therapy, despite which 30% of subjects develop organ failure. Herein we have reported the use of human adipose-tissue-derived, insulin-making mesenchymal stem cells (h-AD-MSC) transfused with unfractionated cultured bone marrow (CBM) in 5 insulinopenic DM patients. PATIENTS AND METHODS: Five (M:F, 2:3) insulinopenic DM patients of 0.6 to 10 years' duration, ages 14 to 28 years under treatment insulin (Human with 14-70 U/d) showed postprandial blood sugars between 156 to 470 mg%, glycosylated hemoglobin 6.8% to 9.9% and c-peptide levels of 0.02 to 0.2 ng/mL. They underwent intraportal administration of xenogeneic-free h-AD-MSC (mean dose = 1.5 mL; cell counts, 2.1 x 10(3)/muL). The CD45-/90+/73(+) cells (29.8/16.8%) showed c-peptide levels of 3.08 ng/mL, insulin level of 1578 micro IU/mL. The aliquot was supplemented with CBM (mean dose 94 mL with cell counts: 18.7 x 10(3)/microL) containing CD45-/34+ elements of 0.93%. The Institutional Review Board approved the study protocol and consent forms. RESULTS: All patients were successfully infused CBM plus h-AD-MSC without any untoward effects and showed 30% to 50% decreased insulin requirements with 4- to 26-fold increased serum c-peptide levels, with a mean follow-up of 2.9 months. CONCLUSION: This report describes safe and effective treatment of insulinopenic diabetics using insulin-producing h-AD-MSC plus CBM without xenogeneic materials.

Donor-specific HLA antibody response in clonal deletion.

1. A total of 61 patients were treated with a clonal deletion protocol and transplanted without planned post-transplant immunosuppression. 2. Twenty-nine (48%) patients did not develop any donor-specific anti-HLA antibodies after the transplant, with a median follow-up of 158 days and a mean sCr of 2.1 mg/dL at the last follow-up. 3. Only 23% of the patients who received a DST of 60 mL produced DSA after the transplant, while 68% of the patients who received a bigger DST dose did. 4. Small doses of donor-specific transfusions (60 mL) elicited smaller specific responses, allowing efficient deletion of the reacting clones, creating conditions in which donor-specific anti-HLA antibodies were not produced. 5. A better deleting agent is needed to achieve higher rates of success using the clonal deletion protocol.

Elimination of post-transplant donor-specific HLA antibodies with bortezomib.

We show the ability of bortezomib to remove donor-specific HLA antibody from kidney allograft patients, the drug acting as a proteasome inhibitor, providing targeted therapy against antibody-producing plasma cells. Ten out of thirteen patients (77%) experienced primary DSA reversal, and in the remaining three patients the MFI of their primary DSA was dramatically reduced. Bortezomib is a viable therapy to treat donor-specific HLA antibody in allograft recipients. The potential for long-term benefits--and complications--are still unknown. Prospective trials are being conducted at the University of Cincinnati, Cincinnati, OH; at the Mayo Clinic, Rochester, MN; and at IKDRC-ITS, Ahmedabad, India.

Successful generation of donor specific hematopoietic stem cell lines from co-cultured bone marrow with human embryonic stem cell line: a new methodology.

We report the generation of 30 healthy human embryonic stem cell (h-ESC) lines from 33 voluntary oocyte donors using a donor somatic cell nuclear transfer (SCNT) technique on 190 oocytes. Our aim was to coculture them with their own bone marrow (BM) to generate hematopoietic progenitor cells for therapeutic purposes. Pluripotency and undifferentiated stage were confirmed using molecular cell surface markers. Normal karyotype of these cell lines was confirmed. Here we demonstrate that SCNT-h-ESCs differentiate to hematopoietic precursors when cocultured with unmodified, nonirradiated donor BM. We did not use any xenogeneic material for this hematopoietic differentiation. Hematopoietic precursors derived from them expressed cell surface antigens CD45/34. When further cultured with hematopoietic growth factors these hematopoietic precursors formed characteristic myeloid, erythroid, and megakaryocyte lineages. Phenotypic CD34+ cells derived from NT-h-ESCs were functionally similar to their counterparts in primary hematopoietic tissues like BM, umbilical cord, and blood. More terminally differentiated hematopoietic cells derived from h-ESCs under these culture conditions also expressed normal surface antigens like glycophorin A on erythroid cells, CD15 on myeloid cells, and CD41 on megakaryocytes. We report generation of hematopoietic progenitor cells from h-ESC lines by a SCNT technique, with differentiation into further lineages with structural and functional similarities to their adult counterparts in vivo. This novel alternative source of CD34+ stem cells from h-ESC lines generated without any xenogeneic material might be used to create transplantation tolerance, to implement regenerative medicine, and to treat autoimmune disorders.