New insight into the controls on a go-to enzyme

November 20, 2008

St. Jude scientists report basic findings on critical enzyme's regulation may hold key to understanding how to better treat an array of disorders

Scientists at St. Jude Children's Research Hospital have gained new insights into regulation of one of the body's enzyme workhorses called calpains.

As the cell's molecular overachievers, calpains function in many cellular processes, including the movement of cells in tissues, the death of damaged cells, insulin secretion, and brain cell and muscle function. The downside of this broad set of responsibilities is that defective or overactive calpains have been linked to an array of disorders, including a form of muscular dystrophy, Type 2 diabetes, gastric cancers, Alzheimer's and Parkinson's diseases, cataracts, and the death of both heart muscle in heart attacks and of brain tissue in stroke and traumatic brain injury.

"Our basic findings on calpain regulation could add useful pieces to the puzzles of these disorders and perhaps reveal targets for drugs to treat them," said Douglas Green, Ph.D., chair of the St. Jude Department of Immunology.

Calpains are triggered by calcium flowing into the cell. This process induces the enzyme to snip apart many target proteins, as part of the cell's regulatory machinery. However, such a critical enzyme needs ultra-precise control, which is the job of another protein called calpastatin. A central question has been how calpastatin is so exquisitely specific in attaching to calpain and inhibiting it-essentially ignoring other highly similar enzymes in the cell.

In an article published in the November 20, 2008, issue of the journal Nature, Green and his colleagues report new information on the specificity of calpastatin.

"Previous studies on calpastatin had revealed how a few of the parts of the calpastatin molecule attach to calpain in the inhibition process," said Green, the report's senior author. "However, there was no overall picture of calpastatin that revealed how it was so precise in its attachment and potent in its function."

To obtain that overall picture, St. Jude researchers used the analytical technique of X-ray crystallography, with help from nuclear magnetic resonance (NMR) spectroscopy. In this widely used method of determining protein structure, researchers first crystallize a protein to be studied. Then, they direct X-rays through the crystal and deduce the protein structure from the diffraction pattern of those X-rays. To overcome the crystallization bottleneck, a lengthy and unpredictable variable in X-ray crystallography, the investigators used NMR spectroscopy to tailor the perfect enzyme-inhibitor complex.

Tudor Moldoveanu, Ph.D., a postdoctoral fellow in Green's laboratory, performed X-ray structural analysis on such a protein crystal that consisted of a critical part of the calpastatin molecule attached to calpain. The structural picture obtained of the two proteins clutched together clearly revealed why calpastatin so specifically attaches to calpain.

"Calpain has multiple domains, and what we saw was that calpastatin wraps itself around pretty much every domain of calpain," said Moldoveanu, the report's first author. This attachment not only blocks the portion of the enzyme called the active site, where calpain performs its snipping function, but also covers regions away from that site. Such a broad molecular embrace guarantees that calpastatin will potently and rapidly shut down calpain's function, Moldoveanu said. This broad embrace also guarantees that calpastatin will precisely recognize only calpains, rather than mistakenly attach to other similar enzymes in the cell.

Furthermore, the researchers discovered how calpastatin evades being chewed up by calpain. Calpastatin's survival enables it to be repeatedly recycled to inhibit calpain, making it an even more effective regulator.

The researchers' structural information also showed how calpain changes its shape once it is activated by calcium and how this transformation renders it a target of calpastatin attachment and thus inhibition.

"This new structural information on calpastatin and on calpain's conformational changes not only explains a lot about calpain's regulation," Green said. "It also gives us information we can use to develop targets for drugs that could either activate or inhibit calpain."

St. Jude Children's Research Hospital

---

---

	Calpastatin: Webster's Timeline History, 1980 - 2007 by Icon Group International (Author) Webster's bibliographic and event-based timelines are comprehensive in scope, covering virtually all topics, geographic locations and people. They do so from a linguistic point of view, and in the case of this book, the focus is on "Calpastatin," including when used in literature (e.g. all authors that might have Calpastatin in their name). As such, this book represents the largest compilation of timeline events associated with Calpastatin when it is used in proper noun form. Webster's timelines cover bibliographic citations, patented inventions, as well as non-conventional and alternative meanings which capture ambiguities in usage. These furthermore cover all parts of speech (possessive, institutional usage, geographic usage) and contexts, including pop culture, the arts, social...
	Intracellular Calcium-Dependent Proteolysis by Ronald L. Mellgren (Author), Takashi Murachi (Author) Intracellular Calcium-Dependent Proteolysis explains what is now known about calpains, which are intracellular, non-lysosomal enzymes involved in intracellular protein catabolism. The book provides a comprehensive overview of topics ranging from the molecular biology of the calpains and their specific inhibitor protein (calpastatin) to physiologic and pathologic consequences of the presence of this proteolytic system in many model cells and tissues. Several theoretical functions of the calpains are discussed, including their potential roles in muscle protein turnover, platelet activation, membrane fusion, and synaptic plasticity. Intracellular Calcium-Dependent Proteolysis is a valuable source of information for researchers and students interested in the regulation of intracellular...
	Calpain Methods and Protocols (Methods in Molecular Biology) by John S. Elce (Editor) John S. Elce and a seasoned team of principal investigators present a set of proven and easily followed protocols for studying calpain. The methods include in vitro techniques for the detection, expression, purification, and assay of µ- and m-calpain, supplemented with a wide range of system and tissue models for studying both the physiological functions of, and the effects of inhibitors on, calpain. The systems used include neural tissue, kidney, liver, the eye, and membrane fusion in muscle and erythrocytes, each in connection with hypoxia or other injury. Among the analytical techniques employed are casein zymography, immunofluorescence, and calpain activity assays. Highly practical and readily reproducible, Calpain Methods and Protocols offers investigators involved in basic and...
	Calpains: Pharmacology and Toxicology of a Cellular Protease by K K W Wang (Editor), Po-wai Yuen (Editor) This new edition offers a clear and through examination of the most recent results of thirty years of research on calcium-activated-neutral protease (CANP or Calpain). Coverage includes the implications of the recently gained ability to produce functionally active recombinant calpain in various human disorders such as cerebal ischemia, traumatic brain and spinal cord injury, cataract formation, myocardial infarction, and Alzheimer's disease. The resulting research to find more selective calpain inhibitors is also discussed. With a copy of Calpain: Pharmacology and Toxicology of Calcium Dependent Protease you will better understand why the calpain research area is such an exciting and promising one.
	Role of Proteases in the Pathophysiology of Neurodegenerative Diseases by Abel Lajtha (Editor), Naren L. Banik (Editor) This book looks at the role of proteases, which are enzymes that digest proteins, and the various roles that proteases play in the development of neurodegenerative diseases such as Alzheimer's disease, ALS, epilepsy, multiple sclerosis, as well as numerous other neuromuscular diseases.
	Muscle Development of Livestock Animals: by Marinus F W te Pas (Author), Henk P Haagsman (Author), Maria E Everts (Author) Well-developed and functional muscle tissues are a prerequisite for healthy meat-producing animals. Good muscle development leads to improved meat quality. Hence modern breeds of livestock animal have been selectively bred for better conformation, increased muscle size and increased muscle-to-bone ratio. This book describes all aspects of muscle development research, and contains contributions from leading research groups around the world.
	Quality Attributes of Muscle Foods by Youling L. Xiong (Editor), Chi-Tang Ho (Editor), Fereidoon Shahidi (Editor) The purpose of this symposium is to address recent advances in muscle food research with emphasis on the physiochemical and biochemical characteristics of the major muscle food components, including proteins, enzymes, lipids, pigments, and flavor compounds. It contains a comprehensive discussion, by a group of the world's leading researchers, of the quality attributes of muscle foods (red meats, poultry, and aquatic species), particularly the product texture, functionality, color, and flavor, as related to their production, processing, and storage.
	Structure and Function of Intrinsically Disordered Proteins by Peter Tompa (Author), Alan Fersht (Author) The existence and functioning of intrinsically disordered proteins (IDPs) challenge the classical structure-function paradigm that equates function with a well-defined 3D structure. Uncovering the disordered complement of proteomes and understanding their functioning can extend the structure-function paradigm to herald new breakthroughs in drug development. Structure and Function of Intrinsically Disordered Proteins thoroughly covers the history up to the latest developments in this field. After examining the principles of protein structure, the classical paradigm, and the history of structural disorder, the book focuses on physical techniques for the identification and characterization of IDPs. It discusses proteomic and bioinformatic approaches and shows how IDPs behave under...
	Acute Neuronal Injury: The Role of Excitotoxic Programmed Cell Death Mechanisms by Denson G. Fujikawa (Editor) The purpose of this book is to present clinically relevant basic mechanisms of excitotoxic neuronal death, which in the adult mammalian brain is morphologically necrotic, not apoptotic, and which involve caspase-independent mechanisms of programmed cell death. The spectrum of clinically relevant pathologically induced excitotoxic neuronal death includes cerebral ischemia, traumatic brain injury, cerebral hypoglycemia, and status epilepticus. By investigating mechanisms, potential neuroprotective strategies can be identified that may have future clinical application.
	Enzymes in Food Processing by Gregory A. Tucker (Author), L.F.J. Woods (Author) Recent years have seen a rapid increase in the use of enzymes as food processing tools, as an understanding of their means of control has improved. Since publication of the first edition of this book many new products have been commercially produced and the corresponding number of published papers has swollen. This second edition has been fully revised and updated to cover changes in the last five years. It continues to provide food technologists, chemists, biochemists and microbiologists with an authoritative, practical and detailed review of the subject.