Enkephalins exhibit differential binding affinity to plasma proteins: Implications for plasma‐mediated effects on enkephalin bioactivity

John G Armstrong; Gerene M Denning; Lynn M Teesch; Brian D Morrison; Laynez W Ackermann; Thomas J Barna; Paula S Ludwig; Lynn L Stoll; Eric W Dickson

doi:10.1096/fasebj.21.6.A866-d

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Enkephalins exhibit differential binding affinity to plasma proteins: Implications for plasma‐mediated effects on enkephalin bioactivity

Abstract

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Enkephalins exhibit differential binding affinity to plasma proteins: Implications for plasma‐mediated effects on enkephalin bioactivity

John G Armstrong, Gerene M Denning, Lynn M Teesch, Brian D Morrison, Laynez W Ackermann, Thomas J Barna, Paula S Ludwig, Lynn L Stoll and Eric W Dickson

The FASEB journal, Vol.21(6), pp.A866-A866

2007

DOI: 10.1096/fasebj.21.6.A866-d

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Abstract

Enkephalins are opioid peptides that act as neurotransmitters and modulators of cardiac function. Plasma enkephalin levels increase in response to ischemia and exercise. The level of bioactive peptides in blood is regulated at many levels, including inactivation by plasma or cell‐associated peptidases. Previous studies showed that Met‐enkephalin (ME) and Leu‐enkephalin (LE) bound to plasma proteins, and that binding to these proteins protected LE from proteolysis. We found that Met‐enkephalin‐Arg‐Phe (MEAP) and Met‐enkephalin‐Arg‐Gly‐Leu (MEAGL) also bound to human serum proteins; however, this binding was of significantly higher affinity that that of ME and LE. In addition, the enkephalin binding capacity of plasma was considerably greater than that of serum from the same donor, suggesting that enkephalins avidly bind to proteins that are present in plasma but not in serum. Finally, we observed a unique degradation pattern when MEAP was hydrolyzed by plasma carboxypeptidases, as compared to ME, LE and MEAGL. Together, our data suggest complex mechanisms by which enkephalin‐plasma interactions may regulate systemic enkephalin bioactivity.

Details

Title: Subtitle: Enkephalins exhibit differential binding affinity to plasma proteins: Implications for plasma‐mediated effects on enkephalin bioactivity
Creators: John G Armstrong - University of Iowa
Gerene M Denning - University of Iowa
Lynn M Teesch - University of Iowa
Brian D Morrison - University of Iowa
Laynez W Ackermann - University of Iowa
Thomas J Barna - University of Iowa
Paula S Ludwig - University of Iowa
Lynn L Stoll - University of Iowa
Eric W Dickson - University of Iowa
Resource Type: Abstract
Publication Details: The FASEB journal, Vol.21(6), pp.A866-A866
Publisher: The Federation of American Societies for Experimental Biology
DOI: 10.1096/fasebj.21.6.A866-d
ISSN: 0892-6638
eISSN: 1530-6860
Number of pages: 1
Language: English
Date published: 2007
Academic Unit: Core Research Facilities; Medicine Administration
Record Identifier: 9984632126502771

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