A Gene Transfer Study Inducing Fetal Hemoglobin in Sickle Cell Disease (GRASP, BMT CTN 2001) (GRASP)

  • STATUS
    Recruiting
  • End date
    May 23, 2026
  • participants needed
    25
  • sponsor
    David Williams
Updated on 23 July 2022
bone marrow transplant
gene therapy
conjugated bilirubin
thalassemia
vaso-occlusive crisis
sickle hemoglobin

Summary

A promising approach for the treatment of genetic diseases is called gene therapy. Gene therapy is a relatively new field of medicine in which genetic material (mostly DNA) in the patient is changed to treat his or her own disease. In gene therapy, we introduce new genetic material in order to fix or replace the patient's disease gene, with the goal of curing the disease. The procedure is similar to a bone marrow transplant, in that the patient's malfunctioning blood stem cells are reduced or eliminated using chemotherapy, but it is different because instead of using a different person's (donor) blood stem cells for the transplant, the patient's own blood stem cells are given back after the new genetic material has been introduced into those cells. This approach has the advantage of eliminating any risk of graft versus host disease (GVHD), reducing the risk of graft rejection, and may also allow less chemotherapy to be utilized for the conditioning portion of the transplant procedure. To introduce new genetic material into the patient's own blood stem cells we use a modified version of a virus (called a 'vector') that efficiently inserts the "correcting" genetic material into the cells. The vector is a specialized biological medicine that has been formulated for use in human beings.

Fetal hemoglobin (HbF) is a healthy, non-sickling kind of hemoglobin. The investigators have discovered a gene that is very important in controlling the amount of HbF. Decreasing the expression of this gene in sickle cell patients could increase the amount of fetal hemoglobin while simultaneously reducing the amount of sickle hemoglobin in their blood, specifically the amount in red blood cells where sickle hemoglobin causes damage to the cell, and therefore potentially cure or significantly improve the condition. The gene we are targeting for change in this study that controls the level of fetal hemoglobin is called BCL11A.

In summary, the advantages of a gene therapy approach include: 1) it can be used even if the patient does not have a matched donor available; 2) it may allow a reduction in the amount of chemotherapy required to prepare the patient for the transplant; and 3) it will avoid certain strong medicines often required to prevent and treat GVHD and rejection. Our lab studies with normal mice, mice that have a form of SCD, and with cells from the bone marrow of SCD patients who have donated bone marrow for research purposes show this approach is very effective in reducing the amount of sickle hemoglobin in red cells. Our pilot trial testing this approach in 10 patients with SCD has shown that the treatment has not caused any unexpected safety problems, and that it increases HbF within the red blood cells. Our goal is to continue to test whether this approach is safe, and whether using gene therapy to change the expression of BCL11A will lead to decreased episodes of vaso-occlusive crisis pain in people with SCD.

Description

This is an open-label, non-randomized, multi-center, phase 2 study involving a single infusion of autologous bone marrow derived CD34+ HSC cells transduced with the lentiviral vector containing a short-hairpin RNA targeting BCL11a. 25 patients ages 13 to 40 will be enrolled at sites across the US.

The main goal of this study is to determine whether the treatment will lead to a complete absence of severe vaso-occlusive events (VOEs) in patients with severe SCD.

After meeting eligibility criteria for the study, patients will receive blood transfusions for a period of at least 3 months prior to hematopoietic stem cell collection, with a goal of achieving a HbS level ≤ 30% by the time of mobilization. Patients will then undergo peripheral stem cell mobilization and have their cells collected by apheresis. The collected cells of each subject will be split into 2 portions; one portion for transduction with the lentiviral vector, and one portion set aside as a back-up product in the event a rescue treatment is needed. Patients may undergo multiple rounds of collection if sufficient numbers of cells are not obtained with the first collection. Transduction will be carried out on the selected CD34+ cells and transduced cells will be cryopreserved.

Patients will undergo standard work-up for autologous bone marrow transplantation prior to proceeding with conditioning and infusion of gene-modified cells. Patients will receive myeloablative conditioning with busulfan administered on days -5 to -2, prior to infusion of transduced cells. The transduced cells will be infused intravenously over 30-45 minutes after standard pre-hydration and premedication according to institutional guidelines.

Patients will be followed for 24 months post-infusion of gene modified cells.

Details
Condition Sickle Cell Disease
Treatment Autologous CD34+ HSC cells transduced with the lentiviral vector containing a shRNA targeting BCL11a
Clinical Study IdentifierNCT05353647
SponsorDavid Williams
Last Modified on23 July 2022

Eligibility

Yes No Not Sure

Inclusion Criteria

A diagnosis of sickle cell disease with genotype HbSS or HbS/β0 thalassemia
Between the age of 13-40 years
Clinically severe disease, defined as at least 4 vaso-occlusive events (VOEs) within the past 24 months prior to consent
Adequate hematologic parameters (regardless of therapy) including white blood cell (WBC) count within the range of 2.5 - 25.0 x 10^9 /L, hemoglobin within the range of 5
g/dL, and platelet count above 150 x 10^9 /L
Adequate organ function and performance status
Karnofsky/Lansky performance status ≥80%
Serum creatinine </= 1.5 times the upper limit of normal for age, and calculated creatinine clearance or GFR >/= 60 mL/min/1.73 m2
Persistent aspartate transaminase, alanine transaminase, or direct bilirubin value <3× the upper limit of normal (ULN)
DLCO, FEV1, and FVC >50% of predicted
Left ventricular ejection fraction >40% or shortening fraction >25%
No HLA-genotypically identical related bone marrow donor available
Parental/guardian/patient signed informed consent

Exclusion Criteria

Subjects who have
Concomitant condition or illness including: ongoing or active infection, active malignancy, major surgery in the past 30 days, medical/psychiatric illness/social situations that would limit compliance with study requirements as determined by the treating physician
Receiving a chronic transfusion regimen for primary or secondary stroke prophylaxis. (Note: patients with a history of abnormal TCD who have transitioned from transfusions to hydroxyurea for stroke prophylaxis are also not eligible for the study.)
Patients with history of abnormal TCD (measured with a timed average maximum mean velocity of ≥200 cm/second in the terminal portion of the internal carotid or proximal portion of middle cerebral artery or if the imaging TCD method is used, >185 cm/second plus evidence of intracranial vasculopathy) who were ever on transfusions and subsequently transitioned to hydroxyurea
History of overt stroke or any neurologic event lasting >24 hours. (Note: patients with imaging evidence of silent stroke but not on a chronic transfusion regimen are not excluded.)
Contraindication to administration of conditioning medication (busulfan)
Prior allogeneic hematopoietic stem cell transplant
Known myelodysplasia of the bone marrow or abnormal bone marrow cytogenetics
Severe cerebral vasculopathy
Liver MRI (≤ 180 days prior to initiation of BU conditioning) to document hepatic iron content is required for participants who have received ≥20 packed red blood cell transfusions (cumulative); participants who have hepatic iron content ≥ 9 mg Fe/g liver dry weight by liver MRI must have a liver biopsy and histological examination/documentation of the absence of cirrhosis, bridging fibrosis, and active hepatitis (≤ 180 days prior to initiation of transplant conditioning); the absence of bridging fibrosis will be determined using the histological grading and staging scale as described by Ishak and colleagues (1995) as described in the Manual of Operations (MOO)
Evidence of HIV infection, HTLV infection, active hepatitis B infection or active hepatitis C infection
Known acute hepatitis or evidence of moderate or severe portal fibrosis or cirrhosis on prior biopsy
Receipt of an investigational study drug or procedure within 90 days of study enrollment
Either or both of the following findings on screening bone marrow aspirate/biopsy: a) diagnosis of myelodysplastic syndrome (MDS) based on morphology and/or cytogenetics (based on WHO definitions) OR b) pathogenic mutation in any gene on the Rapid Heme Panel (RHP), a next-generation sequencing clinical assay for gene mutations associated with hematologic malignancies performed at Brigham and Women's Hospital
Pregnancy or breastfeeding
Presence of a genetically-determined hypercoagulable state or personal history of prior VTE (deep vein thrombosis or pulmonary embolism) that would represent a contraindication to proceed with central line placement and study events
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