Alpha‐1‐acid glycoprotein (AGP) presents different forms, which may arise from differences in the amino acid sequence and/or in the glycosidic part of the protein. Changes in forms of AGP have been described in literature as a possible tumor marker. While most previous works have approached the study of glycopeptides and/or glycans obtained after fragmentation of the protein, in this work, a CZE method is developed to separate up to eleven peaks of intact forms of AGP. A computer program developed in our laboratory is used to select the migration parameters that make possible an accurate assignment of AGP peaks. Electropherograms of AGP samples purified from sera of cancer patients and healthy donors are qualitatively and quantitatively compared. Percentages of correct assignment of AGP peaks close to 100% are achieved by using either the migration time of each peak relative to that of the EOF marker or the effective electrophoretic mobility of the peaks. The computer program permits to select, among different hypotheses for peak allotment, that one providing the highest accuracy of assignment. In this way, some peaks with different charge‐to‐mass ratio and a different distribution of area percentage of AGP forms are observed when comparing samples from sick and healthy individuals. Thus, a method that permits to compare AGP forms existing in sera of individuals with different pathophysiological situations has been developed. A potential for using AGP forms analyzed by CZE as a disease marker and for using this technique for screening purposes is envisaged.
Capillary zone electrophoresis of samples of recombinant human erythropoietin is performed. An in-house computer program is developed to compare the reliability of different migration parameters to assign the close migration bands of isoforms of erythropoietin. The migration time relative to the electroosmotic flow marker and the effective electrophoretic mobility are selected as the most accurate parameters. Percentages of correct assignment of bands higher than 99% are obtained with these parameters even when changes in operational factors are introduced. The chosen parameters have been applied to assign bands of isoforms in commercial samples of alpha- and beta-epoetin. The same capillary electrophoresis method has been applied to separate bands of isoforms of an erythropoietin analogue, darbepoetin alpha, the novel erythropoiesis-stimulating protein.
Abstractα‐1‐Acid glycoprotein (AGP) is a protein that exists in different forms, which is due to variations in the amino acid sequence and/or in the glycosidic part of the protein. These differences confer to these forms, among other characteristics, diverse pIs. Changes in these forms of AGP have been correlated to modifications of the pathophysiological conditions of the individuals. One of the analytical techniques employed for their study has been IEF performed in slab gels. CIEF method with hydrodynamic and chemical mobilization, involving an isotachophoretic process, is developed in this work to separate up to 12 bands of forms of standard AGP, which is proposed as a more reproducible, quantitative, less sample‐consuming, and more automated one than conventional IEF. The challenge of this work has been the development of a CIEF method for the separation of bands of a very acidic protein (pI range: 1.8–3.8) in a capillary. Intraday RSD values ≤ 1.7% have been achieved for the relative migration time of the AGP bands to that of an internal standard. For intraday area precision, RSD (%) in the range of 2.70–22.71% for AGP zones accounting for more than 10% of total area of AGP sample has been obtained. As a proof of the potential of the methodology proposed, an AGP sample purified from a pool of sera of patients suffering from ovary cancer is analyzed by CIEF.
alpha-1-Acid glycoprotein (AGP) is a glycoprotein that presents different forms in the same individual, depending on the amino acid sequence and/or on the carbohydrate distribution of each form. Changes in these two types of heterogeneities are related to pathophysiological states. The aim of this work is to study the possibility of comparing AGP samples in terms of their CIEF profiles, what would facilitate in a future to perform studies about the role of AGP as a disease marker. In the present study, the CIEF profiles of AGP samples purified from sera of healthy donors and of ovary cancer and lymphoma patients are qualitatively and quantitatively compared. To make possible the comparison of those electrophoretical profiles, reliable assignment of AGP peaks is necessary. A computer program developed in our laboratory is used to select the migration parameters that make possible an accurate assignment of AGP peaks. Percentages of correct assignment of AGP peaks using the migration time of each peak relative to the migration time of an internal standard close to 95% are achieved. After peak assignment, a different distribution of the area percentage of AGP forms is observed when comparing samples from diseased and healthy individuals, the most acidic AGP forms being present in a higher proportion in the samples from cancer patients. Although the number of samples studied is too low to get any clinical significance from these results, this work provides a way to study the role of AGP as a biomarker.
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