Abstract 673: The role of mass spectrometry-based serum proteomics signatures in predicting clinical outcomes in cancer patients treated with immune check point inhibitors (ICI)

Abstract 673: The role of mass spectrometry-based serum proteomics signatures in predicting clinical outcomes in cancer patients treated with immune check point inhibitors (ICI)

Abstract The role of mass spectrometry-based serum proteomics signatures in predicting clinical outcomes in cancer patients treated with immune checkpoint inhibitors(ICI)Background Although immune checkpoint inhibitors (ICI) have changed the therapeutic scheme for multiple cancers, only a subset of...

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Published in:Cancer research (Chicago, Ill.) Ill.), 2021-07, Vol.81 (13_Supplement), p.673-673
Main Authors: Choi, Yoonhee, Hwang, Jin Young, Hur, Won Kyung, Nam, Myungwoo, Kim, Leeseul, Lee, Yeun Ho, Cheng, William, Kim, Eugene, Yu, Emma, Jung, Chan Mi, Bae, William Han, Chae, Young Kwang
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Language:eng
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Summary:Abstract The role of mass spectrometry-based serum proteomics signatures in predicting clinical outcomes in cancer patients treated with immune checkpoint inhibitors(ICI)Background Although immune checkpoint inhibitors (ICI) have changed the therapeutic scheme for multiple cancers, only a subset of patients experiences durable benefit. As current tumor markers such as PD-L1 show limited reliability in predicting clinical outcomes, we have explored the predictive role of markers representative of the host immune response on a systemic level present in the circulating proteome. Mass spectrometry allows for analysis of the proteome without the specific identification of individual proteins and protein isoforms. Here, we analyzed the most recent studies using mass spectrometry-based serum proteomics in predicting response to ICI treatment. Method A systematic literature search on Pubmed and major oncology scientific meetings was conducted up to November 18, 2020. Result Classifier algorithms trained with data sets from advanced stages of lung cancer (Primary Immune Response, Host Immune Classifier) and melanoma (BDX008, Immune Checkpoint Blockade) were used to stratify patients into groups with favorable and unfavorable treatment outcome. Patients with unfavorable predictive markers had worse prognosis when treated with ICI-single agent therapy. For patients treated with ICI alone or with chemotherapy as frontline or beyond, mass spectrometry-based serum proteomic signatures were shown to be a reliable predictive marker for survival outcomes (hazard ratios 0.15-0.5) independent of PD-L1 expression level. Conclusion Mass spectrometry-based serum proteomic tests reliably identify patients expected to have a worse prognosis. These patients can benefit from frontline aggressive treatment strategy combining ICI and chemotherapy rather than the standard of care ICI monotherapy. Cancer type Advanced stage NSCLCTreatmentLine of therapyClassifiernumber of patients included (n)number of patients in each classifier, n(%)Survival outcome (OS, month)HR [95%CI]referenceAdvanced stage NSCLCImmunotherapy (nivolumab)2nd linePIR116Not resistant75 (65%)17.30.48 [0.30-0.77], p=0.002Mirte Muller, et al.Resistant41(35%)6.0Sensitive32 (28%)11.10.58 [0.38-0.87], p=0.009Not sensitive84 (72%)4.3Immunotherapy ± ChemotherapyAll lines First line single agent immunotherapy (pembrolizumab) First line Combination (immunotherapy/chemotherapy) All lineHIC284Hot196 (69%)Not reached0.38 [0.27-0.
ISSN:0008-5472
1538-7445