Your search keyword '"Zhang, Zhenqing"' showing total 2 results

1. Control of the heparosan N-deacetylation leads to an improved bioengineered heparin.

Author

Wang, Zhenyu, Yang, Bo, Zhang, Zhenqing, Ly, Mellisa, Takieddin, Majde, Mousa, Shaker, Liu, Jian, Dordick, Jonathan, and Linhardt, Robert

Subjects

BIOENGINEERING, HEPARIN, ANTICOAGULANTS, GLYCOSAMINOGLYCANS, SULFONATION

Abstract

The production of the anticoagulant drug heparin from non-animal sources has a number of advantages over the current commercial production of heparin. These advantages include better source material availability, improved quality control, and reduced concerns about animal virus or prion impurities. A bioengineered heparin would have to be chemically and biologically equivalent to be substituted for animal-sourced heparin as a pharmaceutical. In an effort to produce bioengineered heparin that more closely resembles pharmaceutical heparin, we have investigated a key step in the process involving the N-deacetylation of heparosan. The extent of N-deacetylation directly affects the N-acetyl/ N-sulfo ratio in bioengineered heparin and also impacts its molecular weight. Previous studies have demonstrated that the presence and quantity of N-acetylglucosamine in the nascent glycosaminoglycan chain, serving as the substrate for the subsequent enzymatic modifications (C5 epimerization and O-sulfonation), can impact the action of these enzymes and, thus, the content and distribution of iduronic acid and O-sulfo groups. In this study, we control the N-deacetylation of heparosan to produce a bioengineered heparin with an N-acetyl/ N-sulfo ratio and molecular weight that is similar to animal-sourced pharmaceutical heparin. The structural composition and anticoagulant activity of the resultant bioengineered heparin was extensively characterized and compared to pharmaceutical heparin obtained from porcine intestinal mucosa. [ABSTRACT FROM AUTHOR]

Published

2011

2. Oversulfated chondroitin sulfate is a contaminant in heparin associated with adverse clinical events.

Author

Guerrini, Marco, Beccati, Daniela, Shriver, Zachary, Naggi, Annamaria, Viswanathan, Karthik, Bisio, Antonella, Capila, Ishan, Lansing, Jonathan C, Guglieri, Sara, Fraser, Blair, Al-Hakim, Ali, Gunay, Nur Sibel, Zhang, Zhenqing, Robinson, Luke, Buhse, Lucinda, Nasr, Moheb, Woodcock, Janet, Langer, Robert, Venkataraman, Ganesh, and Linhardt, Robert J

Subjects

HEPARIN, DRUG monitoring, DISACCHARIDES, GLUCURONIC acid, POLYSACCHARIDES, ANTICOAGULANTS

Abstract

Recently, certain lots of heparin have been associated with an acute, rapid onset of serious side effects indicative of an allergic-type reaction. To identify potential causes for this sudden rise in side effects, we examined lots of heparin that correlated with adverse events using orthogonal high-resolution analytical techniques. Through detailed structural analysis, the contaminant was found to contain a disaccharide repeat unit of glucuronic acid linked β1→3 to a β-N-acetylgalactosamine. The disaccharide unit has an unusual sulfation pattern and is sulfated at the 2-O and 3-O positions of the glucuronic acid as well as at the 4-O and 6-O positions of the galactosamine. Given the nature of this contaminant, traditional screening tests cannot differentiate between affected and unaffected lots. Our analysis suggests effective screening methods that can be used to determine whether or not heparin lots contain the contaminant reported here. [ABSTRACT FROM AUTHOR]

Published

2008