William Janssen

Combination of p53 cancer vaccine with chemotherapy in patients with extensive stage small cell lung cancer

Purpose: The initial goal of this study was to test the immunologic and clinical effects of a new cancer vaccine consisting of dendritic cells (DC) transduced with the full-length wild-type p53 gene delivered via an adenoviral vector in patients with extensive stage small cell lung cancer. Experimental Design: Twenty-nine patients with extensive stage small cell lung cancer were vaccinated repeatedly at 2-week intervals. Most of the patients received three immunizations. p53-specific responses were evaluated, and phenotype and function of T cells, DCs, and immature myeloid cells were analyzed and correlated with antigen-specific immune responses. Objective clinical response to vaccination as well as subsequent chemotherapy was evaluated. Results: p53-specific T cell responses to vaccination were observed in 57.1% of patients. Immunologic responses to vaccination were positively associated with a moderate increase in the titer of antiadenovirus antibodies, and negatively with an accumulation of immature myeloid cells. One patient showed a clinical response to vaccination whereas most of the patients had disease progression. However, we observed a high rate of objective clinical responses to chemotherapy (61.9%) that immediately followed vaccination. Clinical response to subsequent chemotherapy was closely associated with induction of immunologic response to vaccination. Conclusions: This study provides clinical support for an emerging paradigm in cancer immunotherapy, wherein optimal use of vaccination might be more effective, not as a separate modality, but in direct combination with chemotherapy.

Clinical significance of bone marrow metastases as detected using the polymerase chain reaction in patients with breast cancer undergoing high-dose chemotherapy and autologous bone marrow transplantation.

PURPOSE The present study evaluates the clinical significance of detection of cytokeratin 19 (K19) in the bone marrow of patients with breast cancer undergoing high-dose chemotherapy (HDCT) and autologous bone marrow transplantation (ABMT). PATIENTS AND METHODS We studied retrospectively cryopreserved bone marrow aspirates from 83 patients with high-risk stage II, III, and IV breast cancer obtained before bone marrow harvest but after induction chemotherapy. All samples were histologically negative for metastases. Polymerase chain reaction (PCR) for K19 was performed according to methods described previously and results were correlated with the probability of relapse following HDCT and ABMT. RESULTS The incidence of occult metastases as defined by PCR for K19 message was 52% for 19 stage II, 57% for 14 stage III, and 82% for 50 stage IV patients (two-tailed P = .0075, chi 2 test). The probability of relapse at 3 years after ABMT was 32% and 94% for K19-positive stage II/III and stage IV patients, respectively, versus 10% and 14% for K19-negative stage II/III and stage IV patients, respectively. The difference was significant for stage IV patients (two-tailed P = .0002). CONCLUSION It has been shown that PCR is a highly sensitive method to detect K19 message in the bone marrow. The incidence of K19 positivity in bone marrow increases significantly with advancing stage. In patients with breast cancer, especially metastatic breast cancer, undergoing HDCT and ABMT, the presence of K19 is associated with a poor prognosis.

Phase I trial of a B7-1 (CD80) gene modified autologous tumor cell vaccine in combination with systemic interleukin-2 in patients with metastatic renal cell carcinoma.

PURPOSE A reason that the immune system may fail to reject tumors is that T cells encounter tumor antigen derived peptides on the surface of tumor cells in a tolerizing rather than activating context since tumor cells do not express T cell co-stimulatory molecules such as B7-1 (CD80). In preclinical models over expression of B7-1 on the surface of tumor cells has been shown to activate T cells which kill tumor cells. We conducted a phase I clinical trial testing this approach in patients with metastatic renal cell carcinoma. MATERIALS AND METHODS Resected tumors from 15 patients were disaggregated and adapted to tissue culture, transduced with the B7-1 gene and injected subcutaneously as a vaccine. The dose of the vaccine was escalated in 3 separate cohorts of patients, and systemic interleukin-2 (IL-2) was administered as an adjuvant designed to enhance the proliferation of the vaccine activated T cells. RESULTS Of the 15 patients 9 had measurable disease, 2 had a partial response and 2 had stable disease. Perivascular T cell infiltrates at autologous tumor delayed type hypersensitivity skin test sites developed in 3 of the 4 patients with stable disease or partial response. Although the patients experienced the usual and expected toxicity from the IL-2, there was no significant toxicity observed with the vaccine. CONCLUSIONS The B7-1 gene modified autologous tumor cell vaccine is safe and can be combined with systemic IL-2 with acceptable toxicity. Immunological and clinical responses were observed in some of the patients. A phase II trial is reasonable to determine the efficacy of this approach.

High-Dose Chemoradiotherapy Supported by Marrow Infusions for Advanced Neuroblastoma A Pediatric Oncology Group Study

We conducted a pilot protocol at seven Pediatric Oncology Group (POG) institutions to examine the feasibility, toxicity, and efficacy of using a common regimen of high-dose chemoradiotherapy (HD CT/RT) supported by autologous or allogeneic marrow infusions in children with metastatic neuroblastoma (NBL) in first or second remission. During a 57-month period, we accrued 101 patients. We report here results for the 81 who completed treatment at least 2 years ago. The HD CT/RT regimen consisted of melphalan 60 mg/m2/d for three doses, and total body irradiation (TBI) either 1.5 Gy (n = 27) or 2.0 Gy (n = 54) twice daily for six doses. Twenty-three patients also received irradiation consisting of 1.2 Gy twice daily for 10 doses to persisting disease sites. Seventy-four were given autologous and seven allogeneic marrow, 64 autologous marrows being purged immunomagnetically. Fifty-four children were in first complete (CR) or partial (PR) remission and 27 in second CR or PR. As of October 1, 1990, follow-up was from 32 to 72 months. Forty-seven of these 81 children relapsed, 10 died of complications, one of unknown cause, and 23 continue in remission, including 21 of the 54 treated in first remission, and 16 who completed treatment more than 3 years ago. The 2-year actuarial event-free survival (EFS) probabilities are first CR (CR1) 32% (SE 10%), first PR (PR1) 43% (SE 9%), second CR (CR2) 33% (SE 27%), and second PR (PR2) 5% (SE 5%). Probability of EFS correlated with remission number (first better than second, P less than .001), with interval from diagnosis to HD CT/RT (greater than 9 months better than less than 9 months, P = .055), and with TBI dose (12 Gy better than 9 Gy, P = .031). These encouraging results may partly reflect selection for this treatment of patients with NBL who have a slower disease pace.

5-Azacitidine for myelodysplasia before allogeneic hematopoietic cell transplantation

Relapse remains a leading cause for treatment failure after hematopoietic cell transplantation (HCT) in patients with intermediate- or high-risk myelodysplastic syndrome (MDS). To discern the impact of 5-azacitine treatment pretransplant on the risk for relapse after HCT, we analyzed the post transplant outcomes of all 54 consecutive patients with MDS or chronic myelomonocytic leukemia who received HCT from HLA-compatible donors according to pretransplant 5-azacitidine exposure. Thirty patients received a median of four (1–7) cycles of 5-azacitidine, and 24 patients did not receive 5-azacitidine before HCT. The 1-year estimates of overall survival, relapse-free survival and cumulative incidence of relapse were 47, 41 and 20%, for 5-azacitidine patients and 60, 51 and 32%, respectively, for non-5-azacytidine patients. These observations suggest that outcomes are similar in both groups with a trend toward decreased early relapse in patients receiving 5-azacitidine. 5-Azacitidine may be of value in stabilizing the disease, thereby allowing time for patients to reach transplant and does not appear to affect transplant outcomes.

Mobilized peripheral blood SSCloALDHbr cells have the phenotypic and functional properties of primitive haematopoietic cells and their number correlates with engraftment following autologous transplantation

Summary. We have developed an approach for identifying primitive mobilized peripheral blood cells (PBSC) that express high levels of aldehyde dehydrogenase (ALDH). PBSC were stained with a fluorescent ALDH substrate, termed BODIPY™‐aminoacetaldehyde (BAAA), and then analysed using flow cytometry. A population of cells with a low side scatter (SSC) and a high level of BAAA staining, termed the SSCloALDHbr population, was readily discriminated and comprised a mean of 3 ± 5% of leukapheresis samples. A mean of 73 ± 11% of the SSCloALDHbr population expressed CD34 and 56 ± 25% of all the mobilized CD34+ cells resided within the SSCloALDHbr population. The SSCloALDHbr population was largely depleted of cells with mature phenotypes and enriched for cells with immature phenotypes. Sorted SSCloALDHbr and SSCloALDHbr CD34+ PBSC were enriched for progenitors with the ability to (1) generate colony‐forming units (CFU) and long‐term culture (LTC)‐derived CFU, (2) expand in primary and secondary LTC, and (3) generate multiple cell lineages. In 21 cancer patients who had undergone autologous PBSC transplantation, the number of infused SSCloALDHbr cells/kg highly correlated with the time to neutrophil and platelet engraftment (P < 0·015 and P < 0·003 respectively). In summary, peripheral blood SSCloALDHbr cells have the phenotypic and functional properties of primitive haematopoietic cells and their number correlates with engraftment following autologous transplantation.

Combination of External Beam Radiotherapy (EBRT) With Intratumoral Injection of Dendritic Cells as Neo-Adjuvant Treatment of High-Risk Soft Tissue Sarcoma Patients

PURPOSE The goal of this study was to determine the effect of combination of intratumoral administration of dendritic cells (DC) and fractionated external beam radiation (EBRT) on tumor-specific immune responses in patients with soft-tissue sarcoma (STS). METHODS AND MATERIAL Seventeen patients with large (>5 cm) high-grade STS were enrolled in the study. They were treated in the neoadjuvant setting with 5,040 cGy of EBRT, split into 28 fractions and delivered 5 days per week, combined with intratumoral injection of 10(7) DCs followed by complete resection. DCs were injected on the second, third, and fourth Friday of the treatment cycle. Clinical evaluation and immunological assessments were performed. RESULTS The treatment was well tolerated. No patient had tumor-specific immune responses before combined EBRT/DC therapy; 9 patients (52.9%) developed tumor-specific immune responses, which lasted from 11 to 42 weeks. Twelve of 17 patients (70.6%) were progression free after 1 year. Treatment caused a dramatic accumulation of T cells in the tumor. The presence of CD4(+) T cells in the tumor positively correlated with tumor-specific immune responses that developed following combined therapy. Accumulation of myeloid-derived suppressor cells but not regulatory T cells negatively correlated with the development of tumor-specific immune responses. Experiments with (111)In labeled DCs demonstrated that these antigen presenting cells need at least 48 h to start migrating from tumor site. CONCLUSIONS Combination of intratumoral DC administration with EBRT was safe and resulted in induction of antitumor immune responses. This suggests that this therapy is promising and needs further testing in clinical trials design to assess clinical efficacy.

INGN-225: a dendritic cell-based p53 vaccine (Ad.p53-DC) in small cell lung cancer: observed association between immune response and enhanced chemotherapy effect.

Importance of the field: Novel approaches are needed for patients with small cell lung cancer (SCLC), as response after relapse is poor with standard therapies. p53 gene mutations often occur, resulting in tumoral protein overexpression and allowing for their recognition by p53-specific cytotoxic T cells. Areas covered in this review: We describe the characteristics and manufacturing of INGN-225, a p53-modified adenovirus-tranduced dendritic cell vaccine, and review available data, to understand INGN-225s role in SCLC treatment. We discuss our pre-clinical, early Phase I/II, and ongoing randomized Phase II studies. What the reader will gain: INGN-225 was well tolerated (all toxicities ≤grade 2) in the Phase I/II trial (54 patients receiving at least 1 dose). Specific anti-p53 immune response was positive in 18/43 (41.8%) patients, with overall post-INGN-225 response observed in 17/33 (51.5%) and immune response data available in 29 (14 positive, 15 negative). Post-INGN-225 response was observed in 11/14 (78.6%) and 5/15 (33%) patients with positive and negative immune responses, respectively. Take home message: INGN-225 is safe, induces a significant immune response, and appears to sensitize SCLC to subsequent chemotherapy. Improvements in immune response induction and understanding the chemotherapy–immunotherapy synergism will determine INGN-225s future role as an anticancer therapy.

High-dose chemotherapy and autologous peripheral blood stem cell transplantation in patients with multiple myeloma and renal insufficiency

Six patients with multiple myeloma and chronic renal insufficiency (serum creatinine >3.0 mg/dl), including four on dialysis, received high-dose busulfan and cyclophosphamide (BUCY) followed by autologous peripheral stem cell transplantation. Peripheral blood stem cells were collected after priming with cyclophosphamide, etoposide and G-CSF. Patterns of engraftment and toxicities were not apparently different from those seen in myeloma patients with normal renal function. There was one toxicity-related death, resulting from a massive spontaneous subdural hematoma. One patient died of disease progression 6 months after transplant, while the remaining four patients are alive and free of myeloma progression 6 to 39 months after high-dose therapy. Two of these patients have remained in complete remission for 28 and 39 months. Our experience suggests that high-dose therapy with BUCY and autologous peripheral blood stem cell rescue is feasible in patients with multiple myeloma and renal failure.

Efficacy of adoptive cell transfer of tumor-infiltrating lymphocytes after lymphopenia induction for metastatic melanoma.

A single-institution pilot clinical trial was performed combining nonmyeloablative chemotherapy and the adoptive transfer of tumor-infiltrating lymphocytes with interleukin-2 in patients with metastatic melanoma. Nineteen patients were enrolled with 13 patients (68%) successfully completing treatment. An overall response rate (partial and complete responses) of 26% by intention to treat was achieved with a median follow-up time of 10 months. Of the 13 treated patients, there were 2 complete responses and 3 partial responses (38% response rate among treated patients), along with 4 patients with stable disease ranging from 2+ to 24+months. Three of the 4 patients with stable disease have had disease control without additional therapy, including one at 24+ months. Adoptive therapy with infiltrating lymphocytes is labor intensive but feasible and has a high response rate in treated patients.