The ovarian cancer proteome

Epithelial carcinoma of the ovary is one of the most common gynecologic malignancies and the fifth most frequent cause of cancer death in women. 50% of all ovarian cancers are diagnosed in women older than 65 years of age. Approximately 5 to 10% of ovarian cancers are familial and women with mutations in the genes BRCA1 or BRCA2 have about a 50% higher risk of developing ovarian cancer.

Ovarian cancer is typically denoted as a silent cancer since symptoms occur late in the course of the disease. A majority of ovarian epithelial cancers are diagnosed during or after abdominal exploration to investigate a pelvic or abdominal mass detected on physical examination. By the time of discovery, approximately 70% of the tumors have spread beyond the ovary and are in such cases rarely curable by surgical resection or surgery combined with postoperative chemotherapy and/or radiation therapy. The dismal prognosis has stimulated research efforts for early detection of ovarian cancer.

Ovarian epithelial cancer is bilateral (involving both ovaries) in one-third to one-half of the cases. The FIGO (International Federation of Gynaecology and Obstetrics) staging system recognizes four stages for ovarian cancer. Patients with Stage I tumors have a 5-year survival of 80%, while the 5-year survival of Stage IV patients is merely 8%.

Here, we explore the ovarian cancer proteome using TCGA transcriptomics data and antibody based protein data. 509 genes are suggested as prognostic based on transcriptomics data from 373 patients; 152 genes associated with unfavorable prognosis and 357 genes associated with favorable prognosis.

TCGA data analysis

In this metadata study, we used data from TCGA where transcriptomics data was available from 373 females with ovarian serous cystadenocarcinoma. 143 of the patients were still alive at the time of data collection. Information on stage distribution was missing.

Unfavorable prognostic genes in ovarian cancer

For unfavorable genes, higher relative expression levels at diagnosis give significantly lower overall survival for the patients. There are 152 genes associated with unfavorable prognosis in ovarian cancer. In Table 1, the top 20 most significant genes related to unfavorable prognosis are listed.

KRT7 is a gene associated with unfavorable prognosis in ovarian cancer. The best separation is achieved by an expression cutoff at 181.1 fpkm which divides the patients into two groups with 16% 5-year survival for patients with high expression versus 38% for patients with low expression, p-value: 9.42e-5. The Keratin type II cytoskeletal 7, or KRT7, is a member of the keratin gene family. The type II cytokeratins consist of basic or neutral proteins which are co-expressed during differentiation of simple and stratified epithelial tissues. KRT7 is involved in the translational regulation of the human papillomavirus type 16 E7 mRNA (HPV16 E7). Immunohistochemical staining using an antibody targeting KRT7 (CAB000028) shows a differential expression pattern in ovarian cancer samples.

p<0.001
KRT7 - survival analysis

KRT7 - high expression

KRT7 - low expression

MRC2 is another gene associated with unfavorable prognosis in ovarian cancer. The best separation is achieved by an expression cutoff at 23.6 fpkm which divides the patients into two groups with 22% 5-year survival for patients with high expression versus 34% for patients with low expression, p-value: 1.68e-4. C-type mannose receptor 2 is encoded by this gene and plays a role in extracellular matrix remodeling by mediating the internalization and lysosomal degradation of collagen ligands. The expression of MRC2 may play a role in the tumorigenesis and metastasis of several malignancies. Immunohistochemical staining using an antibody targeting MRC2 (HPA041991) shows a differential expression pattern in ovarian cancer samples.

p<0.001
MRC2 - survival analysis

MRC2 - high expression

MRC2 - low expression

Table 1. The 20 genes with highest significance associated with unfavorable prognosis in ovarian cancer.

Gene Description Predicted location mRNA (cancer) p-value
EMP1 epithelial membrane protein 1 Intracellular,Membrane 15.0 2.26e-8
PI3 peptidase inhibitor 3 Secreted 73.6 3.84e-6
FAM20C FAM20C, golgi associated secretory pathway kinase Secreted 14.0 9.40e-6
FCGBP Fc fragment of IgG binding protein Intracellular 5.1 9.70e-6
TGFBI transforming growth factor beta induced Intracellular,Secreted 21.9 1.14e-5
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Favorable prognostic genes in ovarian cancer

For favorable genes, higher relative expression levels at diagnosis give significantly higher overall survival for the patients. There are 357 genes associated with favorable prognosis in ovarian cancer. In Table 2, the top 20 most significant genes related to favorable prognosis are listed.

NOL7 is a gene associated with a favorable prognosis in ovarian cancer. The best separation is achieved by an expression cutoff at 28.6 fpkm which divides the patients into two groups with 41% 5-year survival for patients with high expression versus 19% for patients with low expression, p-value: 3.64e-5. Nucleolar protein 7 is encoded by this gene and localizes to the nucleolus, where it maintains nucleolar structure and cell growth rates. NOL7 also functions as a tumor suppressor and regulator of angiogenesis. The RB tumor suppressor gene recruits transcription factors to NOL7 and positively regulates its expression. Immunohistochemical staining using an antibody targeting NOL7 (HPA029185) shows a differential expression pattern in ovarian cancer samples.

p<0.001
NOL7 - survival analysis

NOL7 - high expression

NOL7 - low expression

TERF2IP is another gene associated with a favorable prognosis in ovarian cancer. The best separation is achieved by an expression cutoff at 12.0 fpkm which divides the patients into two groups with 38% 5-year survival for patients with high expression versus 16% for patients with low expression, p-value: 6.14e-5. Telomeric repeat-binding factor 2-interacting protein 1 is encoded by this gene and plays a role in the regulation of transcription and telomere function. When cytoplasmic, TERF2IP associates with the I-kappa-B-kinase (IKK) complex and acts as a regulator of the NF-kappa-B signaling by promoting IKK-mediated phosphorylation of RELA/p65, leading to activate expression of NF-kappa-B target genes. Immunohistochemical staining using an antibody targeting TERF2IP (CAB018660) shows a differential expression pattern in ovarian cancer samples.

p<0.001
TERF2IP - survival analysis

TERF2IP - high expression

TERF2IP - low expression

Table 2. The 20 genes with highest significance associated with favorable prognosis in ovarian cancer.

Gene Description Predicted location mRNA (cancer) p-value
MRS2 MRS2, magnesium transporter Membrane 9.2 5.14e-11
ZNF429 zinc finger protein 429 Intracellular 2.7 1.96e-8
TDP2 tyrosyl-DNA phosphodiesterase 2 Intracellular 12.9 2.53e-7
CXCL11 C-X-C motif chemokine ligand 11 Secreted 8.7 4.31e-7
GPR27 G protein-coupled receptor 27 Membrane 11.5 1.21e-6
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The ovarian cancer transcriptome

The transcriptome analysis shows that 72% (n=14227) of all human genes (n=19670) are expressed in ovarian cancer. All genes were classified according to the ovarian cancer-specific expression into one of five different categories, based on the ratio between mRNA levels in ovarian cancer compared to the mRNA levels in the other 16 analyzed cancer tissues.

Figure 1. The distribution of all genes across the five categories based on transcript abundance in ovarian cancer as well as in all other cancer tissues.

151 genes show some level of elevated expression in ovarian cancer compared to other cancers (Figure 1). The elevated category is further subdivided into three categories as shown in Table 3.

Table 3. Number of genes in the subdivided categories of elevated expression in ovarian cancer.

Distribution in the 17 cancers
Detected in singleDetected in someDetected in manyDetected in all Total
Specificity
Cancer enriched 3440 11
Group enriched 029354 68
Cancer enhanced 1122336 72
Total 14557210 151

Additional information

Ovarian epithelial cancers are classified into serous, mucinous, endometrioid, clear cell, transitional cell, squamous cell, mixed epithelial and undifferentiated categories depending on histomorphologic features. The most common forms include sero-papillary, mucinous and endometrioid subtypes. Several histologic grading systems have been proposed with the WHO system being widely employed. Grade 1 (well-differentiated) endometrial cancers show less than 5% of solid tumor growth pattern (without lumen formation) and uniform oval nuclei with evenly dispersed chromatin. In Grade 3 (poorly differentiated) cancers more than 50% of the tumor is composed of solid tumor cell masses and tumor cell nuclei show coarse chromatin and prominent nucleoli. In Grade 2 cancers, between 6-50% of the tumor is composed of solid masses and nuclei display intermediate features compared to Grade 1 and Grade 3 cancers.

Relevant links and publications

Uhlen M et al., A pathology atlas of the human cancer transcriptome. Science. (2017)
PubMed: 28818916 DOI: 10.1126/science.aan2507

Cancer Genome Atlas Research Network et al., The Cancer Genome Atlas Pan-Cancer analysis project. Nat Genet. (2013)
PubMed: 24071849 DOI: 10.1038/ng.2764

UhlĂ©n M et al., Tissue-based map of the human proteome. Science (2015)
PubMed: 25613900 DOI: 10.1126/science.1260419

Histology dictionary - Ovarian cancer