Your search keyword '"Chang, Alan K"' showing total 4 results

1. Fucoidan extract derived from Undaria pinnatifida inhibits angiogenesis by human umbilical vein endothelial cells

Author

Liu, Fang, Wang, Jia, Chang, Alan K., Liu, Bing, Yang, Lili, Li, Qiaomei, Wang, Peisheng, and Zou, Xiangyang

Subjects

Polysaccharides -- Health aspects, Wakame -- Health aspects -- Chemical properties, Neovascularization -- Research, Materia medica, Vegetable -- Chemical properties -- Health aspects, Plant extracts -- Chemical properties -- Health aspects, Umbilical cord -- Physiological aspects, Biological sciences, Health, Science and technology

Abstract

ARTICLE INFO Keywords: Angiogenesis Fucoidan Undaria pinnatifida Human umbilical vein endothelial cells VEGF-A ABSTRACT In recent years, anti-angiogenic therapy has become an effective strategy for inhibiting tumor growth. Fucoidan is [...]

Published

2012

2. The N-terminal propeptide of Vibrio vulnificus extracellular metalloprotease is both an inhibitor of and a substrate for the enzyme

Author

Chang, Alan K., Park, Jong Woo, Lee, Eun Hee, and Lee, Jung Sup

Subjects

Vibrio -- Chemical properties, Protease inhibitors -- Research, Peptide hormones -- Physiological aspects, Biological sciences

Abstract

Vibrio vulnificus, a marine bacterium capable of causing wound infection and septicemia, secretes a 45-kDa metalloprotease (vEP) with many biological activities. The precursor of vEP consists of four regions: a signal peptide, an N-terminal propeptide (nPP), a C-terminal propeptide, and the mature protease. Two forms of vEP--vEP-45, which contains the mature protease plus the C-terminal propeptide, and vEP-34, which contains only the mature protease--were expressed in Escherichia coli and purified. vEP-45 and vEP-34 had similar activities with azocasein as a substrate, but vEP-34 had reduced activity toward insoluble proteins. The nPP of vEP was expressed as a His tag fusion protein, and its effect on vEP activity was investigated. nPP inhibited the activities of both vEP-45 and vEP-34 but not that of thermolysin, a different but related zinc-dependent protease. The inhibition of vEP by nPP was further examined using vEP-34 as a representative enzyme. The inhibition could be completely reversed under conditions of low enzyme and propeptide concentrations and with prolonged incubation, which resulted from the degradation of nPP by vEP. However, even at high nPP and vEP concentrations, inhibition of vEP by nPP at high temperatures was not effective, resulting in the degradation of both nPP and vEP. These results demonstrate that the nPP of vEP could bind to vEP and inhibit its activity, resulting in the degradation of the propeptide.

Published

2007

3. Vibrio vulnificus secretes a broad-specificity metalloprotease capable of interfering with blood homeostasis through prothrombin activation and fibrinolysis

Author

Chang, Alan K., Kim, Hyo Young, Park, Jung Eun, Acharya, Pankaj, Park, Il-Seon, Yoon, Seong Myeong, You, Ho Jin, Hahm, Kyung-Soo, Park, Jong Kun, and Lee, Jung Sup

Subjects

Vibrio -- Genetic aspects, Metalloproteins -- Research, Homeostasis -- Research, Genetic research, Biological sciences

Abstract

Vibrio vulnificus is a causative agent of serious food-borne diseases in humans related to the consumption of raw seafood. It secretes a metalloprotease that is associated with skin lesions and serious hemorrhagic complications. In this study, we purified and characterized an extracellular metalloprotease (designated as vEP) having prothrombin activation and fibrinolytic activities from V. vulnificus ATCC 29307. vEP could cleave various blood clotting-associated proteins such as prothrombin, plasminogen, fibrinogen, and factor Xa, and the cleavage could be stimulated by addition of 1 mM [Mn.sup.2+] in the reaction. The cleavage of prothrombin produced active thrombin capable of converting fibrinogen to fibrin. The formation of active thrombin appeared to be transient, with further cleavage resulting in a loss of activity. The cleavage of plasminogen, however, did not produce an active plasmin, vEP could cleave all three major chains of fibrinogen without forming a clot. It could cleave fibrin polymer formed by thrombin as well as the cross-linked fibrin formed by factor XIIIa. In addition, vEP could also cleave plasma proteins such as bovine serum albumin and gamma globulin, and its broad specificity is reflected in the cleavage sites, which include [Asp.sup.207]-[Phe.sup.208] and [Thr.sup.272]-[Ala.sup.273] bonds in prothrombin and a [Tyr.sup.80]-[Leu.sup.81] bond in plasminogen. Taken together, the data suggest that vEP is a broad-specificity protease that could function as a prothrombin activator and a fibrinolytic enzyme to interfere with blood homeostasis as part of the mechanism associated with the pathogenicity of V. vulnificus in humans and thereby facilitate the development of systemic infection.

Published

2005

4. Effects of deletions at the carboxyl terminus of Zymomonas mobilis pyruvate decarboxylase on the kinetic properties and substrate specificity

Author

Chang, Alan K., Nixon, Peter F., and Duggleby, Ronald G.

Subjects

Decarboxylases -- Research, Enzymes -- Structure-activity relationship, Biological sciences, Chemistry

Abstract

The side chain of residue 561 and the backbone atoms of residue 560 are critical for the proper function of pyruvate decarboxylase from Zymomonas mobilis. The carboxy-terminus locks in the cofactors and closes the active site in preparation for decarboxylation.

Published

2000