Profiling of hydroxyurea-treated β-thalassemia/ serum proteome through nano-LC-ESI-MS/ MS in combination with microsol-isoelectric focusing.
Faisal KhanArslan AliAyesha IqbalSyed Ghulam MusharrafPublished in: Biomedical chromatography : BMC (2020)
Advancements in proteomic tools offer a comprehensive solution to studying the complexity of diseases at molecular level. This study focusses on the clinical proteomic profiling of pre- and post-hydroxyurea (HU)-treated β-thalassemia patients in parallel with healthy individuals to better understand the role of HU in the treatment of β-thalassemia. The strategy encompasses sequential high-resolution protein fractionation using MicroSol-isoelectric focusing (ZOOM- IEF) followed by one-dimensional SDS-PAGE before nano-RP-LC-MS/ MS analysis of tryptic peptides. Protein identification was performed through Mascot search using NCBInr and SwissProt databases. Several different proteins were observed in pool serum samples of each of the three study groups. Approximately, 1250 proteins exclusive to each group were identified, and after removing the redundant and low sequence coverage proteins, the number was reduced to 576 (201 in healthy, 187 in HU-untreated and 188 in HU-treated group). Uniquely identified proteins in the HU-treated group regulate the focal adhesion, ECM-receptor interaction, PI3K-Akt signaling, Rap1 signaling, cAMP signaling, platelet activation, and Ca2+ signaling pathways in the HU-treated group. The proteomic profile presented here will add to the current state of understanding of molecular mechanisms involved in hydroxyurea treatment of β-thalassemia.
Keyphrases
- sickle cell disease
- pi k akt
- ms ms
- signaling pathway
- newly diagnosed
- high resolution
- binding protein
- amino acid
- healthcare
- cell proliferation
- mass spectrometry
- single cell
- prognostic factors
- oxidative stress
- cystic fibrosis
- machine learning
- combination therapy
- endoplasmic reticulum stress
- deep learning
- replacement therapy
- candida albicans
- smoking cessation
- solid phase extraction
- affordable care act
- cell migration