Hereditary Pulmonary Alveolar Proteinosis Clinical Trial
Official title:
A First-In-Human Clinical Trial of Lentiviral-mediated CSF2RA Gene Transfer/Pulmonary Macrophage Transplantation Therapy of Hereditary Pulmonary Alveolar Proteinosis
The major goal of this study is to evaluate a new type of cell transplantation therapy for individuals with hereditary PAP, study a new treatment that may be useful for treatment of other diseases, and research mechanisms that drive the development and function of lung macrophages.
Status | Recruiting |
Enrollment | 3 |
Est. completion date | October 1, 2038 |
Est. primary completion date | October 1, 2025 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years and older |
Eligibility | Inclusion Criteria: Patients must meet all of the following conditions to be eligible for participation in this study: 1. Male or female with a confirmed diagnosis of hPAP defined as: - Homozygous or compound heterozygous CSF2RA mutations - AND - - A normal GM-CSF autoantibody test result - AND - - An abnormal STAT5-PI test result - OR - - An abnormal GM-CSF 50% effective concentration (EC50) test result 2. Diffuse ground glass opacification of the lungs visualized on a chest computed tomogram (CT) 3. History of prior receipt of WLL therapy or moderate hPAP lung disease severity requiring therapy in the opinion of the Clinical Site Investigator and/or Sponsor 4. Able to undergo bone marrow collection by routine clinical aspiration 5. 18 years of age or older on the date the Informed consent form (ICF) is signed 6. Females who have been post-menopausal for >2 years or females of child-bearing potential after a confirmed menstrual period using a highly efficient method of contraception (as described in Section 11.4.2) for the period from 3 months prior to the first administration of gene-corrected macrophages until 12 months after the last administration of gene-corrected macrophages. Females of child-bearing potential must have a negative serum pregnancy test at Screening (Visit 1), at bone marrow collection (Visit 2), and immediately before each administration of gene-corrected macrophages (Visits 3, 5, 7), and must not be lactating. 7. Males of reproductive potential must agree to use condoms for the period from the 1st administration of gene-corrected macrophages until 12 months after the last dose of gene-corrected macrophages, have a partner who is not of child-bearing potential (i.e. men or females who have been post-menopausal for >2 years), or have a female partner who is using adequate contraception as described in Section 11.4.2. 8. Signed written informed consent form (ICF) Exclusion Criteria: Patients who meet any of the following conditions will not be eligible for participation in this study: 1. History of a confirmed diagnosis of any other PAP-causing disease defined as: 1. PAP caused by function-altering mutations in CSF2RB, adenosine triphosphate (ATP)-binding cassette subfamily A member 3 (ABCA3), SFTPB, SFTPC, Thyroid Transcription Factor 1 (TTF-1), GATA-binding factor 2 (GATA2), SLC7A7, and methionyl-transfer RNA (tRNA) synthetase (MARS), or other genes demonstrated to cause PAP other than CSF2RA 2. PAP associated with an abnormal GM-CSF autoantibody test 3. PAP associated with hematologic disorders including but not limited to myelodysplasia, aplastic anemia, leukemia, multiple myeloma, lymphoma 4. PAP associated with non-hematologic malignancies 5. PAP associated with immune deficiency syndromes 6. PAP associated with chronic inflammatory syndromes 7. PAP associated with chronic infections including but not limited to human immunodeficiency virus, Mycobacteria tuberculosis or other Mycobacterial species, or other organisms 8. PAP associated with inhaled materials including but not limited to inorganic dusts (e.g., silica, titanium, indium, aluminum), organic dusts (e.g., sawdust, fertilizer); or gases/vapors (e.g., cleaning products, paints, and welding-related fumes) 2. Pulmonary fibrosis that is clinically significant in the opinion of Clinical Site Investigator and/or Sponsor 3. A confirmed (i.e., repeated) positive serum anti-GM-CSF receptor antibody test and/or a confirmed positive anti-lentiviral antibody test at the time of screening and prior to each administration of gene-corrected macrophages 4. History of receipt of any investigational agent within 3 months of Study Visit 3 5. History of active chronic infection (e.g., HIV, Hepatitis, others) at the time of Screening 6. History of significant alcohol consumption for a period of more than 3 consecutive months within 1 year prior to Study Visit 3, defined as more than 14 drinks/week for females or 21 drinks/week for males (1 drink - 5 ounces (150 ml) of wine or 12 ounces (360 ml) of beer, or 1.5 ounces (45 ml) of hard liquor) 7. History of medication or illicit drug abuse within 1 year prior to Study Visit 3, including but not limited to cocaine, heroin, or other opioids 8. Currently or planning to become pregnant between the Screening visit and Visit 14 and/or currently breast-feeding 9. Any other medical, behavioral, or psychiatric condition that would interfere with the completion of Study Visits or assessments in the opinion of the Clinical Site Investigator and/or Sponsor |
Country | Name | City | State |
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United States | Cincinnati Children's Hospital Medical Center | Cincinnati | Ohio |
Lead Sponsor | Collaborator |
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Children's Hospital Medical Center, Cincinnati | National Heart, Lung, and Blood Institute (NHLBI), University of South Florida |
United States,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Other | Percentage of bronchoalveolar lavage cells that respond to GM-CSF stimulation | Change in the percentage of BAL cells positive for phosphorylated STAT5 (pSTAT5) and change in STAT5 phosphorylation index (STAT5-PI) via flow cytometry at baseline (Visit 3) and various times after PMT (months 2, 4, 6 (optional), 10, and 16) | 16 months | |
Other | Cell population dynamics of transplanted macrophages via RNA sequencing t-distributed stochastic neighborhood embedding analysis (t-SNE) | Change in cell population dynamics of the transplanted macrophages following PMT Therapy using t-distributed stochastic neighbor embedding (t-SNE) analysis of RNA sequencing data obtained at single-cell resolution on cells collected by BAL (months 2, 4, 6 (optional), 10, and 16). Specifically, the investigators will track the number and relative proportion of distinct cell populations among BAL cells. | 16 months | |
Other | Transcriptional regulation of alveolar macrophage specification via an assay for transposable-accessible chromatin with sequencing | The upstream regulatory elements controlling downstream target genes regulating AM specification will be identified in transplanted macrophages collected by BAL (months 2, 4, 6 (optional), 10, and 16). Monocle and Cicero software will utilize a battery of regression analysis tools to identify and correlate differentially expressed genes and differentially accessible putative DNA regulatory elements. | 16 months | |
Primary | Number of patients with adverse events (AEs) | Number of patients with a CTCAE grade 3 or 4 AE in clinical history findings, physical exam findings, vital signs, clinical laboratory values, pulmonary function data, cardiac function, chest x-ray, chest CT at any time during the study period after initiation of PMT Therapy | Pre- and Post-PMT Therapy for 15 years | |
Secondary | Tolerability of Pulmonary Macrophage Transplantation (PMT) Therapy | Patient global impression of severity (PGIS) and patient global impression of change (PGIC) will be assessed in relation to the patient's overall impression of disease severity and change from baseline. PGIS will assess the current breathing problems and the impact on daily physical activity. The current severity of hPAP (PGIS) will be assessed on a five-point scale ranging from none, mild, moderate, severe, to very severe.
PGIC will assess the change from baseline in breathing problems and impact of breathing problems on daily physical activity. The change from baseline in hPAP severity (PGIC) will be assessed on a five-point scale ranging from much improved, somewhat improved, no change, somewhat worse, to much worse. The PGIS and PGIC parameters will be evaluated just prior to PMT, immediately upon completion of PMT, and daily for 5 days following PMT. |
For 2 days prior to PMT, immediately upon completion of PMT, and daily for 5 days following each PMT procedure. | |
Secondary | Number of patients with an increase in anti-GM-CSF receptor alpha antibodies | Number of patients with an increase in detection of anti-GM-CSF receptor alpha antibodies in serum at any time during the study period after initiation of PMT Therapy | Pre- and Post-PMT Therapy for 15 years | |
Secondary | Number of patients with evidence of clonal lentiviral positive cell expansion | Number of patients with evidence of clonal lentiviral positive cell expansion measured by the presence of vector-derived replication competent lentivirus (RCL) at any time during the study period after initiation of PMT Therapy | Pre- and Post-PMT Therapy for 15 years | |
Secondary | Number of patients with lentiviral vector insertion site analysis indicative of clonal dominance or leukemia | Number of patients with evidence of insertion of the transgene in proximity of known proto-oncogenes and the number of patients with evidence of clonal expansion associated to common insertion sites at any time during the study period after initiation of PMT Therapy | Pre- and Post-PMT Therapy for 15 years | |
Secondary | Number of patients with increased biomarkers of inflammation in bronchoalveolar lavage (BAL) fluid or serum | Number of patients with a CTCAE grade 3 or 4 increase in tumor necrosis factor (TNF)-alpha, interleukin (IL)-1-beta, and IL-6 in bronchoalveolar lavage (BAL) or serum at any time during the study period after initiation of PMT Therapy | Pre- and Post-PMT Therapy for 15 years | |
Secondary | Percent of BAL cells with detectable GM-CSF Receptor Alpha Chain Expression | Change in the percentage of BAL cells with detectable GM-CSF receptor alpha chain expression measured by immunofluorescence at baseline and various times after PMT (months 2, 4, 6 (optional), 10, and 16) | 16 months | |
Secondary | Percent of proliferating alveolar macrophages | Change in percentage of alveolar macrophages that stain positive for Ki-67 at baseline and various times after PMT (months 2, 4, 6 (optional), 10, and 16) | 16 months | |
Secondary | Biodistribution of transplanted macrophages via detection of lentiviral DNA in BAL and blood | Presence of lentiviral DNA detected by PCR in the lungs and blood at baseline and various times after PMT (months 2, 4, 6 (optional), 10, and 16) | 16 months | |
Secondary | Durability of the Therapy - percent of GM-CSF Receptor Alpha Chain expressing alveolar macrophages | Change in the percentage of BAL cells with detectable GM-CSF receptor alpha chain expression measured by immunofluorescence at 6 months (Visit 11) compared to one year after PMT Therapy (Visit 14) | 6 months (Visit 11) and 12 months (Visit 14) after PMT Therapy | |
Secondary | Turbidity of the bronchoalveolar lavage fluid | Change in bronchoalveolar lavage (BAL) fluid turbidity at baseline and various times after PMT (months 2, 4, 6 (optional), 10, and 16) | 16 months | |
Secondary | Ratio of surfactant cholesterol to total phospholipid | Change in ratio of cholesterol to total phospholipids in surfactant at baseline and various times after PMT (months 2, 4, 6 (optional), 10, and 16) | 16 months | |
Secondary | Percentage of alveolar macrophages with neutral lipid accumulation | Change in the percentage of Oil Red O+ alveolar macrophages at baseline and various times after PMT (months 2, 4, 6 (optional), 10, and 16) | 16 months | |
Secondary | Intensity of AMs neutral lipid accumulation | Change in intensity of Oil Red O staining in AM at baseline and various times after PMT (months 2, 4, 6 (optional), 10, and 16). Intensity will be graded on visual scoring. Each cell will be assigned a number (0, 1, 2, or 3) reflecting the degree of oil-red-O-staining. The number of cells at each grade will be multiplied by the numerical grade and products added and divided by the total number of cells evaluated to obtain the oil-red-O staining score. | 16 months | |
Secondary | Concentration of PAP biomarkers in bronchoalveolar lavage fluid | Change in concentrations of BAL cytokine biomarkers of PAP (GM-CSF, M-CSF, and monocyte chemotactic protein-1 (MCP-1)) measured by enzyme linked immunosorbent assay (ELISA) at baseline and various times after PMT (months 2, 4, 6 (optional), 10, and 16) | 16 months | |
Secondary | Difference in expression of alveolar macrophage mRNA biomarkers of Pulmonary Alveolar Proteinosis | Change in alveolar macrophage messenger RNA (mRNA) biomarkers of PAP (PU.1, peroxisome proliferator-activated receptor (PPAR)-gamma, and ABCG1) measured by quantitative reverse transcription/polymerase chain reaction (qRT-PCR) amplification at baseline and various times after PMT (months 2, 4, 6 (optional), 10, and 16) | 16 months | |
Secondary | Difference in alveolar-arterial difference in oxygen concentration (A-aDO2) | Change in A-aDO2 measured by standardized arterial blood gas analysis at baseline and at 6 months and one year after PMT Therapy | 16 months | |
Secondary | Difference in San Diego Shortness of Breath Questionnaire Score | Change in dyspnea measured by the San Diego Dyspnea Questionnaire at baseline and all visits after PMT
The San Diego Dyspnea Questionnaire asks subjects to indicate severity of shortness of breath on a 6-point scale (0=Not at all, 5=maximally or unable to do because of breathlessness) during 21 activities of daily living associated with varying levels of exertion. Three additional questions ask about fear of harm from overexertion, limitations, and fear caused by shortness of breath, for a total of 24 items. A total sum score ranges from 0 to 120. |
16 months | |
Secondary | Difference in pulmonary oxygen delivery | Change in the diffusing capacity for carbon monoxide (DLCO) measured by American Thoracic Society (ATS) standards at baseline and various times after PMT (months 2, 4, 6 (optional), 10, and 16) | 16 months | |
Secondary | Difference in exercise-induced peripheral blood oxygen desaturation trough via treadmill test | Change in lowest peripheral blood oxygen saturation value measured by standardized treadmill testing performed at baseline and at 6 months and one year after PMT Therapy | 16 months | |
Secondary | Difference in time to exercise-induced peripheral blood oxygen desaturation via treadmill test | Change in time to reduction in peripheral blood oxygen saturation by 5% measured by standardized treadmill testing performed at baseline and at 6 months and one year after PMT Therapy | 16 months | |
Secondary | Difference in exercise-induced peripheral blood oxygen desaturation trough via STEP test | Change in lowest peripheral blood oxygen saturation value measured by the STandardized Exercise Protocol testing (STEP Test) performed weekly before and after initiation of PMT Therapy.
Standardized exercise oximetry to measure blood oxygen saturation will be performed at home weekly during the study. Briefly, a pulse-oximeter will be placed on the finger with the participant at rest sitting in a chair. Three baseline (resting) readings will be taken over a 3 minute period. Then the participant will step on and off a standard step for a period of 5 minutes followed by a 3 minute seated recovery. The pulse oximeter will record oxygen saturations every minute of the test. Data will be transmitted to the site via the mobile health platform. The lowest peripheral blood oxygen saturation will be determined from the collected data. |
16 months | |
Secondary | Difference in time to exercise-induced peripheral blood oxygen desaturation via STEP test | Change in time to reduction in peripheral blood oxygen saturation (SpO2) by 5% measured by the STandardized Exercise Protocol testing (STEP Test) performed weekly before and after initiation of PMT Therapy. Results will be evaluated by repeated measures analysis and graphic illustration to depict temporal change in the therapeutic effects after PMT.
Standardized exercise oximetry to measure blood oxygen saturation will be performed at home weekly during the study. Briefly, a pulse-oximeter will be placed on the finger with the participant at rest sitting in a chair. Three baseline (resting) readings will be taken over a 3-minute period. Then the participant will step on and off a standard step for a period of 5 minutes followed by a 3-minute seated recovery. The pulse oximeter will record oxygen saturations every minute of the test. Data will be transmitted to the site via the mobile health platform. The time of the lowest SpO2 will be determined from the collected data. |
16 months | |
Secondary | Difference in severity of lung disease via lung density via quantitative CT densitometry | Change in lung mass determined radiologically by quantitative pulmonary computed tomographic densitometry (QPCTD) at baseline and at 6 months and one year after PMT Therapy | 16 months | |
Secondary | Difference in severity of lung disease via pulmonary parenchymal pattern score | Change in the quantitative categorical pulmonary parenchymal pattern score determined using CALIPER at baseline and at 6 months and one year after PMT Therapy | 16 months | |
Secondary | Difference in Health Status/Quality of Life Score via the 36-Item Short Form Survey (SF-36) Questionnaire | Change in quality of life measured by SF-36 total score and component score at baseline (Visit 3) and all visits after PMT.
The SF-36 Questionnaire is a 36-item, patient-reported survey of patient health. The questionnaire consists of eight scaled scores (each 0-100), which are the weighted sums of the questions in their section, with each question carrying equal weight. The lower the score the more disability. The eight sections are 1) vitality, 2) physical functioning, 3) bodily pain, 4) general health perceptions, 5) physical role functioning, 6) emotional role functioning, 7) social role functioning and 8) mental health. |
16 months |
Status | Clinical Trial | Phase | |
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Completed |
NCT01511068 -
Inhaled Granulocyte-Macrophage Colony Stimulating Factor (GM-CSF) in Hereditary Pulmonary Alveolar Proteinosis (PAP)
|
Phase 2 |