Rapamycin for Immunosuppression and B Cell Modulation Post Stem Cell Transplant for Acute Lymphoblastic Leukemia (ALL)

NCT ID: NCT00795886

Last Updated: 2013-07-31

Basic Information

• Recruitment Status: COMPLETED
• Clinical Phase: PHASE2
• Total Enrollment: 63 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2005-08-31
• Study Completion Date: 2010-03-31

Brief Summary

Objectives:

Primary objective: Evaluate toxicity of rapamycin when used for post-bone marrow transplant graft vs. host disease prophylaxis in children with acute lymphoblastic leukemia (ALL).

Investigator initiated; four participating institutions; Phase II pilot study

Detailed Description

Objectives:

Primary objective: Evaluate toxicity of rapamycin when used for post-bone marrow transplant graft vs. host disease prophylaxis in children with acute lymphoblastic leukemia (ALL).

Rapamycin Rapamycin (RAPA, RapamuneR) (sirolimus) is an immunosuppressive agent that was approved by the FDA in 1999. It is a macrocyclic lactone that is structurally similar to Tacrolimus (FK506) and binds to the same intracellular protein as FK506, FKBP1,2,3, but it has an entirely different mechanism of action and a different principal target protein. The target of the RAPA: FKBP complex is the mammalian target of rapamycin (mTOR). Unlike the calcineurin inhibitors cyclosporine (CSA) and - FK506, RAPA exerts its effects by inhibiting growth factor-driven transduction signals in the T-cell response to alloantigen, thus preventing proliferation among T and B lymphocytes3,4. This action is at a later stage in T cell mediated response than that of CSA or FK506. Important cyclin-dependent signaling kinases are blocked, which results in cell cycle arrest between G1 and S phase. RAPA prevents factor dependent growth of activated T cells, but does not prevent the autocrine production or release of growth factors from activated T cells. Rapamycin has been studied in clinical trials of solid organ allografts, and have been shown to prolong allograft survival by inhibiting host CD4+ and CD8+ T cell expansion5, 6. RAPA has synergistic immunosuppressive properties when used with CSA or FK506, and its use allows lower doses of the more nephrotoxic calcineurin inhibitors to accomplish decreased rejection. The use of full dose calcineurin inhibitors with RAPA can result in nephrotoxicity, but these agents can be safely used at a reduced dose with RAPA.

Our goal with Rapamycin is to achieve two necessary ends with one medication: a leukemic precursor effect (see above), and prevention of graft vs. host disease (GVHD). With CSA OR FK506, acute GVHD develops in approximately 40% of pediatric matched related donor recipients, and the majority is mild and easily controllable by the addition of methylprednisolone or prednisone. At Children's hospital of Philadelphia (CHOP), "short course" methotrexate in addition to CSA OR FK506 is given only to patients >14 years, or those with older donors. Chronic GVHD occurs in approximately 20% of pediatric matched related donor recipients, and 75% of this is limited to skin. Therefore, the use of RAPA in this group may accomplish adequate immunosuppression so as to prevent GVHD, as well as provide anti- B and anti-T cell malignancy effect. RAPA may also prove less toxic than the calcineurin inhibitors as well, in which both nephrotoxicity and neurotoxicity remain serious side effects.

Allogeneic bone marrow transplantation for children with ALL Children who have very high-risk features, such as t(4;11) or t(9;22), or those who relapse while on chemotherapy are rarely cured by chemotherapy alone. These patients, as well as those beyond second remission, are generally referred for allogeneic stem cell transplantation. Approximately 25-30% of these patients will have a matched sibling donor. Matched sibling, matched unrelated, and cord blood donor bone marrow transplant results in approximately 40-60% of patients surviving disease free, but relapse remains the largest obstacle to cure. Rapamycin, with its apoptotic effects upon B cell precursor malignancies, may prove effective in decreasing the incidence of relapse in these patients, particularly when used in a state of minimal residual disease post transplant. We expect to treat approximately 10 patients with ALL yearly with matched related donor BMT between the four centers involved in this study.

Rapamycin studies in conjunction with a calcineurin inhibitor (CSA or FK506) At the Dana Farber Cancer Institute (DFCI), 50 patients with related, human leukocyte antigen (HLA) matched peripheral stem cell transplants were studied using the combination of FK506 and repaying. The hypothesis tested was that the omission of methotrexate would not increase the rate of GVHD, and would reduce toxicity. The rate of grade II-IV acute GVHD was 16%, and III-IV 5%, which is extremely favorable for adults. Transplant related mortality at 100 days was 5%.

This study was done following an earlier study of low dose methotrexate in the higher risk unrelated donor transplant patient. This study showed that rapamycin provided excellent GVHD prevention in the high-risk cohort.

We will substitute FK506 for cyclosporine as per the Boston experience. This will be considered a standard practice within our division to increase patient compliance and comfort. This does not increase risk to patients, as oral FK506 is better tolerated RAPA and FK506 appear to be synergistic which may result in better GVHD prophylaxis.

Study Procedures:

Conditioning:

1. Thiotepa 5 mg/kg days -7, -6. Given IV over 4 hours. Cyclophosphamide 60 mg/kg days -5, -4. Given over 1 hour IV with routine supportive care.

2. Total body irradiation (TBI) 200 cGy/fraction x 6 fractions given over 3 days*. Testicular boost 400 cGy may be given for males. Patients with prior CNS disease and no prior central nervous system (CNS) irradiation: 600 cGy prior to starting conditioning. *TBI may be given before or after Thiotepa and cyclophosphamide. If given before Stem cells are to be given 48 hours after the end of cyclosphosphamide.

Graft vs. Host Disease Prophylaxis:

1. Tacrolimus IV by continuous infusion .03mg/kg per day beginning day -3. Target serum levels between 5-10 patients will switch to oral form when tolerating PO's ("Per Os" or "By mouth".

2. Methotrexate 5mg/m2 will be given IV on days 1, 3, and 6 for all patients and on day 11 for patients receiving unrelated donor marrow.

3. Rapamycin day 0 with dosing as follows: 2.5 mg/m2/d (4mg/d max) PO daily.

Absent GVHD Immune Suppression Weaning:

1. Tacrolimus: Matched sibling donor allograft taper at day +42 over 6-8wks. Mismatched or unrelated allograft or cord blood taper at day +100 to be off by day +180.

2. Sirolimus: At day + 180 wean over 4 weeks.

Conditions

Acute Lymphoblastic Leukemia

Study Design

• Allocation Method: NA
• Intervention Model: SINGLE_GROUP
• Primary Study Purpose: TREATMENT
• Blinding Strategy: NONE

Study Groups

All participants

Group Type: EXPERIMENTAL

RAPAMYCIN

Intervention Type: DRUG

Rapamycin (RAPA, RapamuneR) (sirolimus) is an immunosuppressive agent that was approved by the FDA in 1999. It is a macrocyclic lactone that is structurally similar to Tacrolimus (FK506) and binds to the same intracellular protein as FK506, FKBP1,2,3, but it has an entirely different mechanism of action and a different principal target protein. The target of the RAPA: FKBP complex is the mammalian target of rapamycin (mTOR). Unlike the calcineurin inhibitors cyclosporine (CSA) and - FK506, RAPA exerts its effects by inhibiting growth factor-driven transduction signals in the T-cell response to alloantigen, thus preventing proliferation among T and B lymphocytes3,4.

Interventions

RAPAMYCIN

Rapamycin (RAPA, RapamuneR) (sirolimus) is an immunosuppressive agent that was approved by the FDA in 1999. It is a macrocyclic lactone that is structurally similar to Tacrolimus (FK506) and binds to the same intracellular protein as FK506, FKBP1,2,3, but it has an entirely different mechanism of action and a different principal target protein. The target of the RAPA: FKBP complex is the mammalian target of rapamycin (mTOR). Unlike the calcineurin inhibitors cyclosporine (CSA) and - FK506, RAPA exerts its effects by inhibiting growth factor-driven transduction signals in the T-cell response to alloantigen, thus preventing proliferation among T and B lymphocytes3,4.

Intervention Type: DRUG

Other Intervention Names

(RAPA, RapamuneR) (sirolimus)

Eligibility Criteria

Inclusion Criteria

1. Pediatric patients' ages (0 - 21 years) with lymphoid malignancies considered for allogeneic bone marrow transplant from HLA-identical sibling donor, single antigen mismatched related or unrelated donor marrow /peripheral blood stem cell (PBSC) or cord blood available for marrow donation.

First remission:

• if remission not achieved by day28
• high risk cytogenetic features, including t(9;22) or t(4;11) Second or third remission

2. Signed informed consent.

Exclusion Criteria

1. Organ criteria:

1. Cardiac: ECHO shortening fraction <27%

2. Renal: Creatinine clearance <60 ml/min/1.73 m2

3. Hepatic: Bilirubin >1.5 mg/dl, transaminases <3x normal

4. Infection: active viral, fungal or bacterial infection including HIV.

• Maximum Eligible Age: 21 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

Children's Hospital of Philadelphia

OTHER

Sponsor Role: collaborator

University of Utah

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Michael Pulsipher, MD

Role: PRINCIPAL_INVESTIGATOR

Primary Children's Hospital

Locations

Primary Children's Medical Center

Salt Lake City, Utah, United States

Countries

United States

Other Identifiers

HCI14044

Identifier Type: -

Identifier Source: org_study_id