How ‘good cholesterol’ protects against heart attack, stroke

March 14th, 2011 - 11:32 am ICT by ANI  

London, Mar 14 (ANI): The structure of human HDL cholesterol has been identified and it may also shed light on how this ‘fat packet’ protects against cardiovascular diseases, including heart attack and stroke.

W. Sean Davidson led the University of Cincinnati study.

HDL (high-density lipoproteins, also known as ‘good cholesterol,’ are packets of protein and fat that deliver fat to specific locations within the body.

“Unfortunately, we’ve known very little about the molecular details that explain HDL’s protective effects. A major reason for this is an almost complete lack of understanding of HDL’s structure and how it interacts with other important plasma factors,” said Davidson.

Rong Huang, a post-doctoral fellow in Davidson’s laboratory, isolated human HDL and analyzed its 3-D structure as it circulates in human plasma.

“Previous studies have only focused on synthetic HDL made in the test tube. By isolating human HDL, we were able to focus on the broad range of HDL particles actually circulating in humans,” said Davidson.

Team members used a series of sophisticated spectroscopic and mass spectrometric techniques to study HDL and have found that proteins of HDL form a cage-like structure that encapsulates its fatty cargo.

They determined that most of the HDL particles circulating in human plasma are remarkably similar in structure; however, they found evidence that the particles have a twisting or shock absorber-like motion that allows them to adapt to changes in particle fat content.

By determining the structure of HDL, the researchers were able to conclude that the majority of physiological interactions occurring with HDL-including its twisting movements-occur at the particle surface, which is dominated by the cardioprotective protein apolipoprotein A-I.

This monopolization of the particle surface suggested that other proteins have very little room to bind to HDL and probably have to interact with the protein itself, which could explain how apolipoprotein A-I plays such a dominant role in HDL function and its protective effects.

“This work presents the first detailed models of human plasma HDL and has important implications for understanding key interactions in plasma that modulate its protective functions in the context of cardiovascular disease,” added Davidson.

The study has been published in the journal Nature Structural and Molecular Biology. (ANI)

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