Structural changes in plasma circulating fibrinogen after moderate beer consumption as determined by electrophoresis and spectroscopy

Title
Structural changes in plasma circulating fibrinogen after moderate beer consumption as determined by electrophoresis and spectroscopy
Publication type
Journal Article
Year of Publication
2003
Journal
Journal of Agricultural and Food Chemistry
Volume
51
Issue
3
Pagination
822 - 827
Date published
2003
ISBN
00218561 (ISSN)
Abstract

The effects of short-term moderate beer consumption (MBC) on plasma circulating fibrinogen (PCF) in patients suffering from coronary atherosclerosis were investigated by use of 2-dimensional electrophoresis (2-DE), circular dichroism (CD), and Fourier transform infrared spectroscopy (FTIR). Forty-eight volunteers after coronary bypass surgery were divided into experimental (EG) and control (CG) groups, each of 24. Patients of the EG group consumed 330 mL of beer/day (about 20 g of alcohol) for 30 consecutive days, and CG volunteers drank mineral water instead of beer. Blood samples were collected before and after the experiment. In 21 out of 24 patients after beer consumption the plasma circulating fibrinogen was compromised: changes in its secondary structure were found. These changes were expressed in relatively low electrophoretic mobility and charge heterogeneity, decrease in α-helix and increase in β-sheet, and in slight shift of amide I and II bands. Our findings indicate that one of the positive benefits of moderate beer consumption is to diminish the production of fibrinogen and its stability, which reduces the potential risk exerted by this protein. Thus, in most of beer-consuming patients some qualitative structural changes in plasma circulating fibrinogen were detected.