Abstract
The sialyl-Lewis A (sLeA) glycan forms the basis of the CA19-9 assay and is the current best biomarker for pancreatic cancer, but because it is not elevated in ∼25% of pancreatic cancers, it is not useful for early diagnosis. We hypothesized that sLeA-low tumors secrete glycans that are related to sLeA but not detectable by CA19-9 antibodies. We used a method called motif profiling to predict that a structural isomer of sLeA called sialyl-Lewis X (sLeX) is elevated in the plasma of some sLeA-low cancers. We corroborated this prediction in a set of 48 plasma samples and in a blinded set of 200 samples. An antibody sandwich assay formed by the capture and detection of sLeX was elevated in 13 of 69 cancers that were not elevated in sLeA, and a novel hybrid assay of sLeA capture and sLeX detected 24 of 69 sLeA-low cancers. A two-marker panel based on combined sLeA and sLeX detection differentiated 109 pancreatic cancers from 91 benign pancreatic diseases with 79% accuracy (74% sensitivity and 78% specificity), significantly better than sLeA alone, which yielded 68% accuracy (65% sensitivity and 71% specificity). Furthermore, sLeX staining was evident in tumors that do not elevate plasma sLeA, including those with poorly differentiated ductal adenocarcinoma. Thus, glycan-based biomarkers could characterize distinct subgroups of patients. In addition, the combined use of sLeA and sLeX, or related glycans, could lead to a biomarker panel that is useful in the clinical diagnosis of pancreatic cancer. Précis: This paper shows that a structural isomer of the current best biomarker for pancreatic cancer, CA19-9, is elevated in the plasma of patients who are low in CA19-9, potentially enabling more comprehensive detection and classification of pancreatic cancers.
Highlights
Precis: This paper shows that a structural isomer of the current best biomarker for pancreatic cancer, CA19 –9, is
Reagents to Profile Motifs Related to Sialyl-Lewis A—The first step was to identify an appropriate suite of antibodies against sialyl-Lewis A (sLeA) and related glycans
A query for reagents with a high motif score for sLeA (an estimate of specificity for sLeA [23]) or with the terms “sialyl Lewis A” or “CA19 –9” in the metadata produced an assortment of antibodies and proteins with both predicted and unpredicted binding to sLeA (Table S2)
Summary
Precis: This paper shows that a structural isomer of the current best biomarker for pancreatic cancer, CA19 –9, is. Elevated in the plasma of patients who are low in CA19 –9, potentially enabling more comprehensive detection and classification of pancreatic cancers. Based on imaging and biopsy, each condition and type occasionally can mimic others, and obtaining definitive information from biopsy is not always possible [5]. Molecular tests hold promise to improve this situation [6], as they could provide objective and detailed information about each patient’s condition. Molecular markers to diagnose incipient pancreatic cancer are not available despite decades of research; the current best marker for pancreatic cancer, the CA19 –9 test, was discovered in 1979 [7, 8]. For the diagnosis of pancreatic cancer, glycan-based markers are not yet effective because we do not have markers to detect the Molecular & Cellular Proteomics 14.5
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