Cells have molecule for protein triage.Cells produce bad proteins all the time, and in large-enough numbers, these molecules can spell danger for the body. When misfolded or unfolded, proteins can't do their jobs. At worst, they harm cells by clumping into the sticky plaques that are the signatures for neurodegenerative disorders such as Alzheimer's disease Alzheimer's disease (ăls`hī'mərz, ôls–), degenerative disease of nerve cells in the cerebral cortex that leads to atrophy of the brain and senile dementia. . A clear understanding of how most cells successfully manage their protein repair and disposal has been elusive. But now, research has unmasked one of the molecular participants in the process. In the January NATURE CELL BIOLOGY, scientists studying gene expression in failing heart report the function of an important molecular player in the cell's quality-control system. Called CHIP (carboxyl carboxyl /car·box·yl/ (kahr-bok´sil) the monovalent radical —COOH, occurring in those organic acids termed carboxylic acids. car·box·yl n. terminus of Hsc70-interacting protein), this molecule decides the fate of malformed mal·formed adj. Abnormally or faultily formed. proteins in heart muscles, says Cam Patterson of the University of North Carolina at Chapel Hill The University of North Carolina at Chapel Hill is a public, coeducational, research university located in Chapel Hill, North Carolina, United States. Also known as The University of North Carolina, Carolina, North Carolina, or simply UNC . CHIP judges whether to slate bad proteins for repair or destruction, he says. The findings may help researchers piece together the puzzle of protein regulation and lead to a new generation of therapies for heart disease and nervous system disorders Nervous system disorders A satisfactory classification of diseases of the nervous system should include not only the type of reaction (congenital malformation, infection, trauma, neoplasm, vascular diseases, and degenerative, metabolic, toxic, or deficiency , says Patterson. The process of protein sorting has been dubbed triage triage Division of patients for priority of care, usually into three categories: those who will not survive even with treatment; those who will survive without treatment; and those whose survival depends on treatment. for its similarity to the way that medical personnet sort patients in emergency rooms. Proteins exist in the cell in three different states: functional, misfolded or unfolded but salvageable, and beyond all hope. During protein triage, the refolding molecules, called chaperones, recognize misfolded peptodes and tidy them up (SN: 9/6/97, p. 155). Another cellular molecule, a proteasome Proteasomes are large protein complexes inside all eukaryotes and archaea, as well as in some bacteria. In eukaryotes, they are located in the nucleus and the cytoplasm.[1] , breaks apart those protein candidates that are beyond fixing. Until now, however, there's been no direct link between the molecules charged with fixing the folding and those that destroy proteins. Hearts under stress are loaded with both damaged proteins and molecules that refold Re`fold´ v. t. 1. To fold again. proteins. Patterson and his colleagues discovered that CHIP's abundance in the heart also increases during stress. The group then suspected that CHIP is the triage arbiter. During triage, CHIP steps in and binds to a chaperone chaperone /chap·er·one/ (shap´er-on) someone or something that accompanies and oversees another. molecular chaperone that holding a badly misshappen protein, preventing any refolding, the team reports. Instead, CHIP shuttles the reject to the proteasome, which destroys it. "What's interesting about [CHIP] is it seems to have two different functional units that are linked together," says Judith Frydman, who studies protein folding at Stanford University. One unit binds CHIP to a chaperone, and the other presents the protein to the proteasome. CHIP, Patterson asserts, represents a major pathway for degrading spoiled protein and keeping the cell on track making good protein. " The balance seems to be a yin-yang situation." he says. " We have known more about yin - when to refold proteins. Now, we're trying to learn about the yang - understanding when they are discarded and why. "We have thought the cells would have a powerful means for clearing out [hopelessly damaged proteins], a cellular garbage can," says Patterson. He and his colleagues suggest that a chemical resembling CHIP could be used as a drug to clear away damaged proteins in the heart and other organs. "I think this is really an exciting paper because for the first time it links... protein folding and protein degradation," says Marschall Runge, a cardiovascular researcher also at the University of North Carolina North Carolina, state in the SE United States. It is bordered by the Atlantic Ocean (E), South Carolina and Georgia (S), Tennessee (W), and Virginia (N). Facts and Figures Area, 52,586 sq mi (136,198 sq km). Pop. . These two areas are critical during a heart attack, and a better understanding of their linkage will open up a new area for development of therapeutic strategies, he says. |
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