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Clinical Trial Details — Status: Suspended

Administrative data

NCT number NCT02579005
Other study ID # 2012-634
Secondary ID
Status Suspended
Phase Phase 1
First received
Last updated
Start date April 20, 2018
Est. completion date April 2025

Study information

Verified date February 2024
Source Hopital du Sacre-Coeur de Montreal
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

This project will assess the feasibility of treating advanced cancer using the immune system, without any anti-cancer drug. In this pilot study, the investigators propose combining low-dose radiotherapy, in lung cancer patients, with allogeneic immune cells obtained from a donor. The patients will receive radiotherapy directed to one of the patient's tumors, as well as an immunomodulatory drug called cyclophosphamide. Thereafter, they will receive the infusion of donor immune cells.


Description:

Metastatic lung cancer remains incurable despite numerous studies and treatments tried, including chemotherapy and, more recently, targeted therapies. Cancer can escape immune surveillance through different mechanisms: low levels of tumor associated antigens (TAA), regulatory T cells, and immunosuppressive cytokines. Non-cytolytic doses of radiation have been shown to reverse some of these pathways in experimental models. It up-regulated the density of the MHC molecules presenting TAA and increased the T cell infiltration of the tumor (1). Patients with lymphoma, liver or prostate cancer were treated with radiotherapy combined with immunotherapy, in the form of a TLR9 agonist, autologous dendritic cells or a prostate-specific antigen vaccine (2, 3, 4). These trials have shown an induction of T cell reactivity against TAA. Another form of immunotherapy, used for patients with refractory hematologic malignancies is allogeneic hematopoietic stem cell transplantation (HSCT) (5). Its success has relied on cell infusions from a donor, demonstrating the immunologic control sustained by allogeneic cells (6). The approach investigated in this study uses the immune cells from a donor to induce a tumor destruction reaction. This will be amplified by the immunological effects of radiotherapy. Many oncogenes are present in lung cancers and low-dose radiation increases their expression on the surface of the tumor cell. In addition, radiation has the property to stimulate the production of inflammatory cytokines and chemokines in the irradiated site. Finally, the donor's immune cells shall respond physiologically by migrating to the site of inflammation. This will trigger an immune reaction directed against the abnormal cancer cells. A total of 24 patients are expected to be recruited over the study period, estimated to be 3 years. The allogeneic cells will be obtained from one of two possible donor types. For patients having a living donor, the immune cells will be harvested through a collection procedure called apheresis. The living donor should be a sibling with 3/6 or less HLA compatibility with the patient, at the A, B and DRB1 loci. For patients who do not have such a living donor, allogeneic cells from a cryopreserved umbilical cord blood (UCB) unit will be used. The treatment course will be the following: low-dose radiotherapy will be delivered to a single tumor site, which could be either the primary tumor or one of its metastases. Low-dose cyclophosphamide will be given to decrease regulatory T cell activity and increase anti-tumor responses. Allogeneic immune cells will be administered thereafter, according to the treatment arm the patient has been assigned.


Recruitment information / eligibility

Status Suspended
Enrollment 24
Est. completion date April 2025
Est. primary completion date October 2024
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion criteria: - Advanced lung cancer documented by a histo-pathological analysis; - Patients who received at least one line of anti neoplastic therapy; - Presence of at least one tumor mass >1 cm and not previously irradiated; - Metastases situated in one of the following sites: lung, skeleton, lymph nodes or soft tissue; - Presence of at least one not previously irradiated metastasis; - Life expectancy greater than 3 months; - ECOG performance status = 2. Exclusion criteria: - Second active cancer necessitating treatment; - History of autoimmune disease; - Patients dependent on immunosuppressive medications, including corticosteroids; - Decreased diffusion capacity below 40%, if radiation planned to a lung metastasis; - Patients needing urgent radiotherapy.

Study Design


Related Conditions & MeSH terms


Intervention

Biological:
Patients with a living donor
The day of allogeneic cell infusion will be referred to as Day 0 and the n-th day before that, as Day -n. The dose of external radiation will be 15 Gy divided in 3 fractions, from Day -3. Cyclophosphamide, 250 mg/m2 will be given on Day -2. Donors will receive 5 daily doses of GCSF, 10 µg/kg, by subcutaneous injection from Day -4. PBMC will be collected through apheresis on Day 0. A dose of 5 x 10exp7 CD3 cells/kg will be administered. The infused volume will be adjusted to contain this T cell dose.
Patients with a UCB donor
The day of allogeneic cell infusion will be referred to as Day 0 and the n-th day before that, as Day -n. The UCB unit should have at least 4 of 6 HLA compatibility and at least 3 x 10exp6 TNC per kg patient weight. The dose of external radiation will be 15 Gy, divided in 3 fractions, starting on Day -3. Cyclophosphamide, 250 mg/m2 intravenously, will be given on Day -2.

Locations

Country Name City State
Canada Hopital Sacre-Coeur Montréal Quebec

Sponsors (2)

Lead Sponsor Collaborator
Hopital du Sacre-Coeur de Montreal Maisonneuve-Rosemont Hospital

Country where clinical trial is conducted

Canada, 

References & Publications (7)

7. Cancer Therapy Evaluation Program. Common Terminology Criteria for Adverse Events v3.0 (CTCAE). Bethesda, MD. National Cancer Insitute, 2006. Available at: http://ctep.cancer.gov/protocolDevelopment/electronic_applications/docs/ctcaev3.pdf.

Baron F, Maris MB, Sandmaier BM, Storer BE, Sorror M, Diaconescu R, Woolfrey AE, Chauncey TR, Flowers ME, Mielcarek M, Maloney DG, Storb R. Graft-versus-tumor effects after allogeneic hematopoietic cell transplantation with nonmyeloablative conditioning. J Clin Oncol. 2005 Mar 20;23(9):1993-2003. doi: 10.1200/JCO.2005.08.136. — View Citation

Brody JD, Ai WZ, Czerwinski DK, Torchia JA, Levy M, Advani RH, Kim YH, Hoppe RT, Knox SJ, Shin LK, Wapnir I, Tibshirani RJ, Levy R. In situ vaccination with a TLR9 agonist induces systemic lymphoma regression: a phase I/II study. J Clin Oncol. 2010 Oct 1;28(28):4324-32. doi: 10.1200/JCO.2010.28.9793. Epub 2010 Aug 9. — View Citation

Chi KH, Liu SJ, Li CP, Kuo HP, Wang YS, Chao Y, Hsieh SL. Combination of conformal radiotherapy and intratumoral injection of adoptive dendritic cell immunotherapy in refractory hepatoma. J Immunother. 2005 Mar-Apr;28(2):129-35. doi: 10.1097/01.cji.0000154248.74383.5e. — View Citation

Diaconescu R, Storb R. Allogeneic hematopoietic cell transplantation: from experimental biology to clinical care. J Cancer Res Clin Oncol. 2005 Jan;131(1):1-13. doi: 10.1007/s00432-004-0611-6. Epub 2004 Sep 28. — View Citation

Gulley JL, Arlen PM, Bastian A, Morin S, Marte J, Beetham P, Tsang KY, Yokokawa J, Hodge JW, Menard C, Camphausen K, Coleman CN, Sullivan F, Steinberg SM, Schlom J, Dahut W. Combining a recombinant cancer vaccine with standard definitive radiotherapy in patients with localized prostate cancer. Clin Cancer Res. 2005 May 1;11(9):3353-62. doi: 10.1158/1078-0432.CCR-04-2062. Erratum In: Clin Cancer Res. 2006 Jan 1;12(1):322. — View Citation

Hodge JW, Guha C, Neefjes J, Gulley JL. Synergizing radiation therapy and immunotherapy for curing incurable cancers. Opportunities and challenges. Oncology (Williston Park). 2008 Aug;22(9):1064-70; discussion 1075, 1080-1, 1084. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary Incidence of treatment-related adverse events Evaluation by follow-up clinic visits, including medical questionnaire, physical exam & blood tests: complete blood count, electrolytes, renal & liver function tests. AE will be graded using National Cancer Institute's Common Toxicity Criteria version 3 (7). Evaluations will take place twice a week for the first 2 weeks, weekly for 2 weeks, every 2 weeks for 2 months & every month for 3 months. It is anticipated that a maximum of 1 of 6 patients will have grade 3 side effects, including nausea, diarrhea, dyspnea, cough, fever, rash. Up to 6 months
Secondary Immune responses - T cell infiltration Assessment using biopsies done before & 1-2 weeks after treatment. The block slides will be stained with CD3, CD4, CD8 & PDL-1 antibodies. T cell density will be expressed as the number of CD4+ and CD8+ cells to tumor cell ratio. The degree of T cell infiltration of the tumors will be assessed by comparing these ratios between pre & post treatment samples. Up to 1 month
Secondary Immune responses - Tumor cell phenotype Assessment using biopsies done before & 1-2 weeks after treatment. Flow cytometry will be used to assess the following tumor markers: HLA, Fas, ICAM-1, PDL-1. The changes in tumor cell phenotypes will be assessed by comparing the mean fluorescence intensity of the above markers between pre & post treatment samples. The PDL-1 tumor cell expression will also be compared on the block slides between pre & post treatment samples. Up to 1 month
Secondary Immune responses - tumor infiltrating T cell phenotype Assessment using biopsies done before & 1-2 weeks after treatment. Flow cytometry will be used to assess the following markers on tumor infiltrating T cells: CD3, CD4, CD8, CD25 & Foxp3. The nature and magnitude of T cell infiltration will be assessed by comparing the frequencies of these T cell subsets between pre & post treatment samples. Up to 1 month
Secondary Immune responses - origin of tumor infiltrating T cells Assessment using biopsies done 1-2 weeks after treatment. Single cell suspensions will be stained with the following markers for tumor infiltrating T cells: CD3, CD4 and CD8. CD4+ and CD8+ T cells will be isolated by fluorescence-activated cell sorting. Their origin (patient vs donor) will be determined by a chimerism assay. The frequencies of donor-derived cells will be determined by PCR quantification of patient and donor specific VNTR bands. Up to 1 month
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