Ovarian cancer early detection by circulating CA125 in the context of anti-CA125 autoantibody levels: Results from the EPIC cohort.
Renée Turzanski FortnerHelena SchockCharlotte Le CornetAnika HüsingAllison F VitonisTheron S JohnsonRaina N FichorovaTitilayo FashemiHidemi S YamamotoAnne TjønnelandLouise HansenKim OvervadMarie-Christine Boutron-RuaultMarina KvaskoffGianluca SeveriHeiner BoeingAntonia TrichopoulouEleni-Maria PapatestaCarlo La VecchiaDomenico PalliSabina SieriRosario TuminoCarlotta SacerdoteAmalia MattielloN Charlotte Onland-MoretPetra H PeetersH B As Bueno-de-MesquitaElisabete WeiderpassJ Ramón QuirósEric Jeffrey DuellMaria-Jose SánchezCarmen NavarroEva ArdanazNerea LarrañagaBjörn NodinKarin JirströmAnnika IdahlEva LundinKay-Tee KhawRuth C TravisMarc GunterMattias JohanssonLaure DossusMelissa A MerrittElio RiboliKathryn L TerryDaniel W CramerRudolf KaaksPublished in: International journal of cancer (2017)
CA125 is the best ovarian cancer early detection marker to date; however, sensitivity is limited and complementary markers are required to improve discrimination between ovarian cancer cases and non-cases. Anti-CA125 autoantibodies are observed in circulation. Our objective was to evaluate whether these antibodies (1) can serve as early detection markers, providing evidence of an immune response to a developing tumor, and (2) modify the discriminatory capacity of CA125 by either masking CA125 levels (resulting in lower discrimination) or acting synergistically to improve discrimination between cases and non-cases. We investigated these objectives using a nested case-control study within the European Prospective Investigation into Cancer and Nutrition cohort (EPIC) including 250 cases diagnosed within 4 years of blood collection and up to four matched controls. Circulating CA125 antigen and antibody levels were quantified using an electrochemiluminescence assay. Adjusted areas under the curve (aAUCs) by 2-year lag-time intervals were calculated using conditional logistic regression calibrated toward the absolute risk estimates from a pre-existing epidemiological risk model as an offset-variable. Anti-CA125 levels alone did not discriminate cases from controls. For cases diagnosed <2 years after blood collection, discrimination by CA125 antigen was suggestively higher with higher anti-CA125 levels (aAUC, highest antibody tertile: 0.84 [0.76-0.92]; lowest tertile: 0.76 [0.67-0.86]; phet = 0.06). We provide the first evidence of potentially synergistic discrimination effects of CA125 and anti-CA125 antibodies in ovarian early detection. If these findings are replicated, evaluating CA125 in the context of its antibody may improve ovarian cancer early detection.