Breast Neoplasms Clinical Trial
Official title:
A Feasibility Study of Combination Therapy With Trastuzumab, Cyclophosphamide, and an Allogeneic GM-CSF-secreting Breast Tumor Vaccine for HER-2/Neu-Overexpressing Metastatic Breast Cancer.
This is a feasibility study to examine combination therapy with Trastuzumab (T), Cyclophosphamide (CY), and an allogeneic GM-CSF-secreting whole cell breast cancer vaccine in patients with Stage IV HER-2/neu-overexpressing breast cancer. The main purposes of this study are to test the safety, clinical benefit, and bioactivity of vaccine therapy in combination with Cyclophosphamide and Trastuzumab in patients with HER-2/neu-overexpressing Stage IV breast cancer. This study will also to test whether the Cyclophosphamide can eliminate the suppressive influence of regulatory T cells, and whether Trastuzumab can increase antigen processing and presentation. These drug activities may make the immune system react better and enhance the effects of the vaccine in treating breast cancer. The vaccine consists of two irradiated allogeneic mammary carcinoma cell lines genetically modified to secrete human granulocyte-macrophage colony stimulating factor (GM-CSF). This open label, single arm study is designed to recruit up to 40 subjects to identify 20 research subjects with HER-2/neu-overexpressing Stage IV breast cancer eligible for study treatment.
Breast cancer ranks second among cancer deaths in women. In the year 2005, the American
Cancer Society has estimated that 212,240 new invasive cases of breast cancer will be
diagnosed, and predicts 40,410 deaths will result from breast cancer. While 80% of patients
present with locoregional disease involving the breast and/or axillary lymph nodes, about
half develop disseminated disease and ultimately die from it. Stage IV breast cancer is
typically managed with hormonal agents or conventional cytotoxic drugs. Tumors quickly become
resistant to these treatments. Immunotherapy is a particularly attractive strategy for
overcoming drug resistance and can be integrated with existing therapeutic modalities in an
additive or synergistic fashion. Immunotherapy is a type of treatment for cancer based on the
idea that the immune system can be activated to destroy cancer cells that might be resistant
to hormonal therapy and chemotherapy. A vaccine is a kind of immunotherapy that delivers an
antigen (something that activates the immune system) so that the immune system recognizes
cells with that antigen as foreign and destroys any cells that display that antigen.
The allogeneic breast tumor cell vaccine consists of two types of breast tumor cells
developed from the tumor cells of patients with breast cancer. The human
granulocyte-macrophage colony-stimulating factor (GM-CSF) gene was used to genetically modify
the breast tumor cells to secrete GM-CSF. GM-CSF is a substance made by the body that helps
the immune system recognize a tumor and destroy it. The vaccine cells were irradiated to
prevent them from growing or dividing. The cells themselves are not radioactive. The cells
are stored frozen until the day of vaccination. The total number of cells in each vaccine
will be 500,000,000, divided into twelve injections given in the thighs and arms. The choice
of twelve injections for each vaccine is based on the volume of the vaccine and a finding
that the body has a better chance to respond to the vaccine if it is injected into a number
of different areas.
We propose to test the safety and bioactivity of an allogeneic GM-CSF-secreting breast cancer
vaccine when given in a specifically timed sequence with Cyclophosphamide and Trastuzumab,
two drugs commonly used to treat breast cancer. In this study the Cyclophosphamide is used at
lower doses than usual to help the vaccine to activate the patient's immune system.
Trastuzumab will be given at doses that are commonly used to treat breast cancer and it may
also increase the immune response. The dose and scheduling of Cyclophosphamide and
Trastuzumab used are based on testing the drugs with a GM-CSF-secreting vaccine in mice that
get breast cancer, and are the ones that enabled the vaccine to induce the most potent
anti-tumor immunity. The dose of vaccine cells is based on the safety of the same dose of a
similar GM-CSF-secreting vaccine for pancreatic cancer. This breast cancer vaccine has also
been given to people with breast cancer by itself, and with Cyclophosphamide and another
chemotherapy drug, Doxorubicin. To date, people have had no vaccine-related serious side
effects, but not enough people have received the vaccine to know if it treats breast cancer.
The vaccine is experimental and has not been approved by the U.S. Food and Drug
Administration (FDA). However, the FDA has permitted its use in this research study. This is
the second study of this breast cancer vaccine and the first study to test this vaccine with
Trastuzumab.
The main purposes of this study are to test the safety, clinical benefit, and bioactivity of
vaccine therapy in combination with Cyclophosphamide and Trastuzumab in patients with
HER-2/neu-overexpressing Stage IV breast cancer. This study will also to test whether the
Cyclophosphamide can eliminate the suppressive influence of regulatory T cells, and whether
Trastuzumab can increase antigen processing and presentation. These drug activities may make
the immune system react better and enhance the effects of the vaccine in treating breast
cancer.
The study is open to men and women with HER-2/neu-overexpressing metastatic breast cancer.
Concurrent hormone therapy and/or bisphosphonates (standard breast cancer therapy that is not
chemotherapy or other investigational therapy) is allowed. Patients may have received
Trastuzumab in the past or continue on it while participating in this study. About 40 people
with HER-2/neu positive breast cancer will enter in the study. About 20 will pass the
screening tests and receive the vaccine.
Research subjects will receive a fixed dose of the allogeneic breast tumor vaccine consisting
of two irradiated allogeneic breast cancer cell lines transfected with the GM-CSF gene in a
specifically timed sequence with a low dose of Cyclophosphamide and Trastuzumab. Patients
will receive 300 mg/m2 of Cyclophosphamide on day -1, and the vaccine on day 0. Weekly
Trastuzumab will be timed to coincide with Cyclophosphamide administration. Research subjects
will receive three monthly vaccination cycles, with a fourth and final (boost) vaccination
cycle three months from the third cycle.
Blood samples to measure GM-CSF levels will be taken on the day of vaccination, every day for
4 days, and then on day 7 after vaccination. Blood samples to evaluate the safety of the
vaccinations will be taken about once a week for one month following each vaccination. During
studies of the breast vaccine and similar vaccines in renal cell cancer, prostate cancer,
pancreatic cancer, and non-small cell lung cancer, local symptoms of swelling and redness
developed at the vaccine site between 2 and 7 days after vaccination. In this study, if the
subject's vaccination site shows swelling over 1 cm in diameter, a skin biopsy will be taken.
The skin biopsy will be evaluated to determine to what types of cells are important to the
immune response. Based on our previous preclinical and clinical data, the biopsy will be
taken on day 3, and possibly on day 7, after the first and third vaccinations. Other tests
and evaluations include history and physical examination, vital signs, CT of the chest,
abdomen, and pelvis, nuclear medicine bone scan, pre-vaccination biopsy, blood for immune
monitoring, and a skin test for delayed-type hypersensitivity (DTH) that is like a purified
protein derivative (PPD) test and involves injecting pieces of a protein antigen (HER-2/neu)
that is delivered by the breast cancer vaccine. The purpose of the DTH test is to evaluate
whether the research subject has developed a systemic immune response to the breast cancer
vaccine. Tumor core needle biopsies will be obtained at baseline, and on days 0 and +14 of
vaccine cycle 1 only.
Patients will be evaluated clinically and with laboratory testing for evidence of disease
progression after each cycle or when otherwise clinically indicated. Computed tomography (CT
scan) of the chest, abdomen, and pelvis and nuclear medicine bone scan will also be performed
to evaluate disease status prior to starting the study, after vaccine cycle 3 and prior to
and after vaccine cycle 4. About every three months cardiac function will be evaluated.
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