Preparation and characterization of a biomimetic honeycomb cross-linked chitosan membrane and its application in the serum of gastric cancer patients.

Chitosan, as a biological macromolecule with excellent biocompatibility, has great potential for application in immobilized metal affinity chromatography (IMAC) strategies. In-depth analysis of low-abundance phosphopeptides in organisms can help reveal the pathological mechanisms of diseases. Here, we developed an IMAC material based on a biomimetic honeycomb chitosan membrane. The material demonstrates excellent biocompatibility, good hydrophilicity, and strong metal chelating capacity, which collectively confer outstanding enrichment properties. The material has high sensitivity (0.05 fmol), great selectivity (1:2000), excellent cycling stability (at least 10 cycles) and acid-base stability. In addition, the material was employed in human serum, successfully enriching 129 phosphopeptides from the serum of gastric cancer patients and 146 phosphopeptides from healthy controls. Sequence logo suggests a potential association between gastric cancer and glutamine. Ultimately, an in-depth gene ontology analysis was carried out on the phosphopeptides that were enriched in the serum samples. Compared to normal controls, our results demonstrated dysregulated expression of biological process, cellular component, and molecular function in gastric cancer patients. This suggests that the disease involves, such as blood coagulation pathways, cholesterol metabolism, and heparin binding. All experimental outcomes converge to demonstrate the substantial promise of the material for applications within proteomics research.