Abstract
Human papillomaviruses (HPVs) play a major role in development of cervical cancer, and HPV oncoproteins are being targeted by immunotherapies. Although these treatments show promising results in the clinic, many patients do not benefit or the durability is limited. In addition to HPV antigens, neoantigens derived from somatic mutations may also generate an effective immune response and represent an additional and distinct immunotherapy strategy against this and other HPV-associated cancers. To explore the landscape of neoantigens in cervix cancer, we predicted all possible mutated neopeptides in two large sequencing data sets and analyzed whether mutation and neoantigen load correlate with antigen presentation, infiltrating immune cell types, and a HPV-induced master regulator gene expression signature. We found that targetable neoantigens are detected in most tumors, and there are recurrent mutated peptides from known oncogenic driver genes (KRAS, MAPK1, PIK3CA, ERBB2, and ERBB3) that are predicted to be potentially immunogenic. Our studies show that HPV-induced master regulators are not only associated with HPV load but may also play crucial roles in relation to mutation and neoantigen load, and also the immune microenvironment of the tumor. A subset of these HPV-induced master regulators positively correlated with expression of immune-suppressor molecules such as PD-L1, TGFB1, and IL-10 suggesting that they may be involved in abrogating antitumor response induced by the presence of mutations and neoantigens. Based on these results, we predict that HPV master regulators identified in our study might be potentially effective targets in cervical cancer.
Highlights
It is anticipated that most cervical cancer cases will be prevented in the future, but this disease is currently incurable and it causes around 4,000 deaths per year in the US [1]
Our studies show that mutation load and neoantigen availability is associated with expression of Human papillomaviruses (HPVs) oncoprotein-associated “master regulators,” and with specific genes involved in antigen presentation, immune cytotoxic T-cell function, and immunosuppressive mechanisms
Using the cervical cancer samples available in the Cancer Genome Atlas (TCGA) CESC [13] (n = 194) and in the study published by Ojesina et al [14] (n = 79), we proceeded to predict all potential neoantigens for this cancer type
Summary
It is anticipated that most cervical cancer cases will be prevented in the future, but this disease is currently incurable and it causes around 4,000 deaths per year in the US [1]. It is well known that human papillomaviruses (HPVs) cause the overwhelming majority of cervical tumors [4], and HPV proteins are attractive targets [5]. Tumor-infiltrating lymphocytes specific to HPV E6 and E7 oncoproteins were successfully expanded and capable of tumor reactivity in an adoptive cell transfer trial in an autologous setting, only third of the patients responded in that study [6]. Listeria monocytogenesbased immunotherapy is another promising approach showing specific activity against high-risk HPV strains [7]. The importance of targeting non-viral antigens in HPV-driven cancers has recently been demonstrated [8]
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