CD34+ stem cell augmentation of elutriated allogeneic bone marrow grafts: results of a phase II clinical trial of engraftment and graft-versus-host disease prophylaxis in high-risk hematologic malignancies

Advances in automated cell washing and concentration

The successful commercialization of cell therapies requires thorough planning and consideration of product quality, cost and scale of the manufacturing process. The implementation of automation can be central to a robust and reproducible manufacturing process at industrialized scales. There have been a number of wash-and-concentrate devices developed for cell manufacturing. These technologies have arisen from transfusion medicine, hematopoietic stem cell and biologics manufacturing where operating mechanisms are distinct from manual centrifugation. This review describes the historical origin and fundamental technologies underlying each currently available wash-and-concentrate device as well as their relative advantages and disadvantages in cell therapy applications. Understanding the specific attributes and limitations of these technologies is essential to optimizing cell therapy manufacturing.

Myeloablative allogeneic bone marrow transplant using T cell depleted allografts followed by post-transplant GM-CSF in high-risk myelodysplastic syndromes

Allogeneic blood and marrow transplantation (alloBMT) remains the only curative treatment for patients with myelodysplastic syndromes (MDS), but its application has been limited by the older age range of patients with this disease. T cell depletion decreases transplant-related toxicity related to graft-versus-host disease (GVHD), but does not improve overall survival because of increased risk for relapse and graft failure. Myeloid growth factors have been used to speed engraftment following alloBMT, but data suggest that they may also have anti-tumor properties. We treated 43 patients (median age 56) with MDS/AML with high-risk features using a myeloablative T cell depleted alloBMT followed by prolonged systemic GM-CSF. The current event-free survival at 1 and 3 years was 47% and 34%, respectively with a median follow-up of 22.8 months in surviving patients. The toxicities compared favorably with those seen using reduced intensity conditioning regimens and included grade III/IV GVHD (10%), graft failure (9%), and cumulative treatment-related mortality (28%). The cumulative incidence of relapse remained high at 38%; however, 3/10 patients receiving donor lymphocyte infusions achieved durable complete remissions. These results suggest that it is possible to maintain treatment intensity while minimizing toxicity in older, high-risk MDS patients.

High incidence of graft failure in children receiving CD34+ augmented elutriated allografts for nonmalignant diseases

T-cell depletion of the marrow graft using counterflow centrifugal elutriation reduces the risk of graft-versus-host disease (GVHD). However, because of high rates of graft failure and relapse, elutriation alone has not improved survival. We have carried out a phase II clinical trial in 54 pediatric patients to determine if CD34+ selection to rescue pluripotent stem cells from the small lymphocyte fraction improves engraftment. The processed grafts contained a mean of 5.5 x 10(7) cells/kg IBW, 4.7 x 10(6) CD34+ cells/kg IBW, and 6.3 x 10(5) CD3+cells/kg IBW. Patients achieved an ANC >500 at a median of 16 days and platelet count >20 000 at a median of 28 days. The incidence of clinically significant GVHD was 19%. In total, 10 patients enrolled in this study experienced graft failure, with eight of the 14 patients transplanted for nonmalignant indications failing to engraft stably. Graft failure was statistically significantly associated with nonmalignant diagnosis (P<0.001), but was not associated with CMV seropositivity, donor gender, or cell counts of the allograft. We conclude that although time to engraftment is similar to that seen with unmanipulated grafts, graft failure remains a significant problem in patients with hereditary, nonmalignant diseases. Future efforts will seek to preserve the benefits of elutriation with CD34+ selection by increasing immune ablation of the preparative regimen and/or increasing posttransplant immune suppression.

Long-term follow-up of T cell-depleted allogeneic bone marrow transplantation in refractory multiple myeloma: importance of allogeneic T cells

Multiple myeloma may be cured by myeloablative conditioning and allogeneic blood or marrow transplantation (alloBMT), but this occurs at the expense of high transplant-related mortality. In an endeavor to reduce procedure-related toxicity, this study retrospectively evaluated the safety, tolerability, and efficacy of T cell depletion by counterflow centrifugal elutriation before alloBMT. Fifty-one patients with stage II (6) or III (45) multiple myeloma received alloBMTs using T cell depletion by elutriation. Fifty-three percent (27 of 51) of patients had primary refractory disease at the time of transplantation, 10% (5 of 51) had relapsed disease, and 4% (2 of 51) had refractory relapsed disease. The median age was 49 (range, 32 to 62) years, and the median time from diagnosis to transplantation was 9 (range, 4 to 58) months. Patients had received a median of 1 (range, 1 to 3) regimen and 4 (range, 2 to 16) cycles of chemotherapy. In this population, transplant-related mortality rate was 24% (12 of 51) with 2 patients dying of graft-versus-host disease (GVHD). Thirty-one of 39 evaluable patients have experienced relapse, and the probability of progression-free survival 5 years after alloBMT alone is 16%. Sixteen patients were given donor lymphocyte infusions (DLI) at the time of relapse (n = 11) or for persistent disease 1 year after transplantation (n = 5). Acute or chronic GVHD was seen in 63% (10 of 16) of patients given DLI. Responses were seen in 8 of 16 patients (6 complete response [CR], 2 partial response [PR]) with 6 of 8 responding patients having GVHD. Five recipients of DLI remain in a continuous CR, ranging from 3 to 64 months in duration. Thus, like chronic myelogenous leukemia, allogeneic T cells appear to have potent antimyeloma activity that is critical for achieving a cure. DLI-induced remissions of multiple myeloma can be durable, even in patients with refractory multiple myeloma. Unlike chronic myelogenous leukemia, the antimyeloma effect of allogeneic T cells rarely occurs in the absence of clinically significant GVHD.

Alemtuzumab (Campath-1H) for treatment of lymphoid malignancies in the age of nonmyeloablative conditioning?

The anti-CD52 (Campath-1) monoclonal antibodies (Mabs) have a substantial history of use for controlling graft-versus-host disease in allogeneic bone marrow transplantation. Now, with the availability of a humanised form, alemtuzumab (Campath-1H), and the demonstration that this agent can reduce the tumour burden in B-CLL, a new niche may be found - as a potentially curative agent in which its tumour purging ability in vivo combines with its role as a conditioning agent in nonmyeloablative transplantation. Review of the literature shows that alemtuzumab has unique advantages as a method of depleting malignant lymphocytes, including those in patients resistant to conventional chemotherapy. Alemtuzumab can also be used in BMT for depletion of normal T and B lymphocytes of both the recipient and donor for prevention of graft rejection and GVHD. It allows good stem cell recovery with resultant rapid engraftment, has a low risk of EBV-triggered secondary malignancy and does not interfere with blood stem cell mobilisation. As a method of eliminating the malignant clone in B-CLL, alemtuzumab has shown remarkable efficacy in heavily pre-treated patients, a number of whom have progressed to autologous or allogeneic transplantation. Efficacy data are shown within the context of other transplantation data for B-CLL. These results indicate that the combination of tumour-depleting and immunosuppressive properties of alemtuzumab should be explored, with the hope of providing improved treatment options for elderly patients with advanced B-CLL or indolent lymphoma whose prognosis is too poor currently to allow treatment with traditional regimens of high-dose myeloablative chemotherapy.

CD34 selection using three immunoselection devices: comparison of T-cell depleted allografts

BACKGROUND

T-cell depletion of allografts markedly reduces the incidence of GvHD following BMT. The approach taken at our Center has utilized the physical separation method of counterflow centrifugal elutriation (CCE), augmented by recovery of stem cells from lymphocyte-rich fractions by immunoaffinity selection of CD34(+) stem cells. We wanted to compare the performance characteristics of three commercially available selection devices, as well as the clinical outcomes of patients who received allografts engineered by the different devices.

METHODS

BM allografts were prepared for patients undergoing BMT for hematologic malignancies. BM cells were separated into lymphocyte-rich and lymphocyte-depleted fractions using CCE, followed by recovery of CD34(+) cells from the lymphocyte-rich fraction using one of three immunoselection devices [CellPro CEPRATE, Nexell Isolex 300i (software version 2.5) and AmCell CliniMACS]. Allografts consisted of the lymphocyte-depleted fraction plus the CD34-selected fraction.

RESULTS

Yields of CD34(+) cells were comparable for the three devices. However, there were significant differences in purity (CEPRATE < Isolex 300i < CliniMACS) and time from start of fractionation to infusion (CEPRATE < CliniMACS < Isolex 300i). More technical problems were encountered with the Isolex 300i device. Allograft compositions were comparable. Transplant outcomes (engraftment and incidence of GvHD) also were comparable.

DISCUSSION

Qualitatively and quantitatively, allografts prepared with the CEPRATE, Isolex 300i (v 2.5) and CliniMACS devices should be considered comparable for use in this setting and probably also for direct T-cell depletion of BM.

Enrichment of normal progenitors in counter-flow centrifugal elutriation (CCE) fractions of fresh chronic myeloid leukemia leukapheresis products

OBJECTIVES

The aim of this study was to assess the suitability of a technique based on counter-flow centrifugal elutriation (CCE), which should allow one to enrich chronic myeloid leukemia (CML) patients' unstimulated native leukapheresis product (nLP) in CD34+ HLADR- cells and BCR-ABL negative cells.

METHODS

Six newly diagnosed CML patients were subjected to leukapheresis, and the products were subfractionated with the use of CCE. nLP and all fractions were studied for the presence of CD34+ cells and a proportion of BCR-ABL fluorescence in situ hybridization (FISH)+ cells.

RESULTS

CCE fractions with a high flow rate contained the highest proportion of CD34+ cells [mean (SEM) 6.89% (3.88)]. However, CD34+ cells present in low-rate CCE fractions showed a higher proportion of HLADR-[49.6% (13.5 in 70 mL min-1) and 21.5% (11.6 in 110 mL min-1)] than those in 170 mL min-1[3.2% (2.5)] and "rotor off" [3.4% (1.9)]. This was associated with lower proportions of BCR-ABL FISH+[8.1% (4.8) and 1.9 (1.7)] and smaller BCR-ABL to ABL transcript ratios [0.58 (17) and 0.26 (0.08) in 70 and 110 mL min-1] fractions as compared to 140 and 170 mL min-1 fractions [21.6% (5.2) and 31.6% (15.3) for BCR-ABL FISH+ cells and 0.75 (0.16) and 0.90 (0.24) for BCR-ABL/ABL]. Fractions with the lowest proportions of BCR-ABL-positive cells and the lowest BCR-ABL/ABL transcript ratios (110 mL min-1) contained from 1.3 x 106 to 82.7 x 106 (median: 3.97 x 106) CD34+ cells.

CONCLUSIONS

In the present study we have shown that CCE may be used effectively to obtain nLP fractions enriched in normal hematopoietic progenitors.

New approaches to blood and marrow transplantation for patients with low-grade lymphomas

Low-grade lymphomas are generally considered incurable diseases with current standard therapies. Blood or marrow transplantation may be the exception. Nevertheless, the role of bone marrow transplantation in low-grade lymphomas has been limited by the usual indolent course of this heterogeneous group of diseases and the historically high rates of transplant-related mortality associated with most transplant procedures. This review discusses the current issues pertaining to bone marrow transplantation and comments on investigational approaches such as the use of monoclonal antibodies as in vivo purging mechanisms and nonmyeloablative and radioimmunoconjugated antibodies as alternate preparative regimens.

Oral busulfan pharmacokinetics and engraftment in children with Hurler syndrome and other inherited metabolic storage diseases undergoing hematopoietic cell transplantation

Allogeneic hematopoietic cell transplantation (HCT) is the only treatment for selected inherited metabolic storage diseases (IMSD); a significant shortcoming is failure to achieve donor-derived engraftment. This study was undertaken to determine whether busulfan pharmacokinetics (BU PK) are altered in children with IMSD and whether BU concentrations are important in achieving engraftment. BU samples were obtained from 39 IMSD children, including 20 children with Hurler syndrome, undergoing HCT. Patients received oral BU (40 mg/m(2)/dose x 8 doses), cyclophosphamide (60 mg/kg/day x 2 doses) and TBI (750 cGy in one fraction) as a preparative regimen. Median (range) oral clearance corrected for bioavailability (Cl/F in ml/min/kg), area under the curve (AUC in ng min/ml) and BU plasma concentration (Cp in ng/ml) with the fourth dose were 5.2 (2.1-11.4), 318 294 (112 893-640 995) and 950 (314-1780), respectively. Children < 3 years of age had lower AUC and Cp but higher Cl/F (P < or = 0.03). BU Cp (P = 0.06) or marrow cell dose (P = 0.32) was not different in Hurler syndrome compared to other IMSD. A median BU Cp of 959 and 831 ng/ml was achieved in children with full and failed early engraftment, respectively. There was no difference in early and late engraftment between children with Hurler and other IMSD. In conclusion, we found no significant association between engraftment, marrow cell dose and BU exposure when combined with CY and TBI in children with IMSD.

Manipulating the Immunologic Characteristics of Both Graft and Host to Improve Transplant Outcome

BACKGROUND: Several critical outcomes of allogeneic stem cell transplantation for hematologic malignancies such as engraftment, incidence of graft-vs-host disease (GVHD) and disease-free survival depend on a balance between residual host and infused donor T cells and on chemosensitivity of the underlying disorder. Manipulating cell compartments of the allograft does affect long-term outcome. METHODS: The authors review investigations on the effect of blood and marrow graft components, treatment regimens, and immunologic interventions on eventual transplant outcome, an approach termed "graft engineering." Results: Major advances in graft engineering over the last decade are presented as a series of related developments or levels that derive from the goals of reducing GVHD and minimal residual disease. CONCLUSIONS: Morbidity and mortality of GVHD have decreased markedly by methods of T-cell depletion but at the expense of recurrent disease. Cellular therapy and immunotherapy show promise in potentially eradicating residual disease posttransplant.