Abstract
Prostate specific antigen (PSA) exhibits pronounced heterogeneity in both primary structure and glycan composition, resulting in the existence of different molecular forms. Investigation of PSA structure is a demanding task facing limitations due to inadequate sensitivity of analytical techniques and low concentrations of the different forms. This study aimed to profile free PSA (fPSA), especially lower molecular mass species lacking detailed classification, in normal seminal plasma and in sera from subjects with benign hyperplasia (BPH) or cancer of the prostate (PCa) as samples of known clinical relevance. fPSA forms were separated from complex proteomes on chips with immobilized anti-fPSA antibody followed by detection using surface-enhanced laser desorption/ionization time of flight mass spectrometry. At least 39 fPSA-immunoreactive species, ranging from 3–29 kDa were detected in seminal plasma. General fPSA profiles in seminal plasma and sera were similar, but differed in the abundance and presence of particular peaks/clusters of the lower molecular mass species. No striking difference in fPSA forms was observed between BPH and PCa samples, but some distinct peaks varied in intensity and frequency within or between groups. Obtained data verify fPSA heterogeneity that might be important for better exploration of all their molecular and marker potentials.
Highlights
Prostate specific antigen (PSA), designated as kallikrein 3 is a serine protease, produced and secreted, predominantly, by the prostate gland [1,2]
Profiles of the molecular forms of free PSA (fPSA), on protein chips with immobilized monoclonal anti-fPSA antibody specific for epitope I are shown in Figs 2 and 3
A comparable profile was obtained with PSA standard preparations (NIBSC Code 96/668), which originated from seminal plasma (SP), but represent a purified preparation
Summary
Prostate specific antigen (PSA), designated as kallikrein 3 (hKh3) is a serine protease, produced and secreted, predominantly, by the prostate gland [1,2]. The free form of PSA can comprise the precursor or zymogen form (proPSA), found to be elevated in cancer, as well as mature active/inactive and clipped forms. Among these BPSA with internal bond cleavage at Lys145 and Lys182 residues is supposed to be associated with BPH [14, 18,19]. Heterogeneity in PSA glycan composition was detected and seen as the existence of biantennary or monoantennary glycans, and/or various outer chain moieties and differently sialylated and fucosylated forms [10,13,20,21,22,23,24,25]
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