Abstract
Characterization of the humoral immune response in selected patients with cancer who uniformly do well may lead to the development of novel therapeutic strategies. We have previously shown an association between patients with early-stage nonmetastatic lung cancer and autoantibodies to complement factor H (CFH). CFH protects normal and tumor cells from destruction by the alternative complement pathway by inactivating C3b, a protein that is essential for formation of a lytic complex on the cell surface. Here, we show that CFH autoantibodies in lung cancer patients recognize a conformationally distinct form of CFH in vitro, are IgG3 subclass, and epitope map to a crucial functional domain of CFH known to interact with C3b. Purified CFH autoantibodies inhibited binding of CFH to A549 lung tumor cells, increased C3b deposition, and caused complement-dependent tumor cell lysis. This work demonstrates that CFH autoantibodies isolated from patients with lung cancer can kill tumor cells in vitro, suggesting that they may perform this function in vivo as well. Development of specific antibodies to the conformationally distinct epitope of CFH may lead to a useful biologic therapy for lung cancer.
Highlights
Lung cancer remains a significant public health issue
We demonstrated an association of autoantibodies to complement factor H (CFH) in patients with early-stage, nonmetastatic, non–small cell lung cancer
CFH antibodies in NSCLC patients are specific for reduced CFH CFH is a 150-kDa protein that is composed of 20 short consensus repeat (SCR), called complement control protein (CCP) modules
Summary
Lung cancer remains a significant public health issue. The majority of tumors are detected at an advanced stage when treatment options are limited. This work explores the possibility of using patients' humoral immune response as a starting point for the development of novel therapeutic agents against lung cancer. Activation of the humoral response against malignant cells is well documented in the literature [1], humoral immunity per se has not been very well exploited for cancer therapy. Circulating antibodies against over 100 different tumor-associated antigens (TAA) have been described, very few are associated with tumor stage or outcome. It remains possible that certain host antibodies have the potential for antitumor activity, but this ability is not fully realized for a number of possible reasons, including low concentration or low affinity of antibodies, or ineffective activation of B lymphocytes
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