Author: Goding, James W.
Title: Ectoâ€enzymes: physiology meets pathology Cord-id: uxvoyqdd Document date: 2000_3_1
ID: uxvoyqdd
Snippet: Ectoâ€enzymes are catalytic membrane proteins with their active sites outside the cell. They include cholinesterase, which inactivates acetylcholine, and angiotensinâ€converting enzyme, which converts angiotensin I to biologically active angiotensin II, and numerous other peptidases, transpeptidases, nucleotidases, phosphodiesterases, and phosphatases. Many CD antigens of leukocytes are ectoâ€enzymes; some CD antigens for which no function is currently known are probably ectoenzymes. Expressi
Document: Ectoâ€enzymes are catalytic membrane proteins with their active sites outside the cell. They include cholinesterase, which inactivates acetylcholine, and angiotensinâ€converting enzyme, which converts angiotensin I to biologically active angiotensin II, and numerous other peptidases, transpeptidases, nucleotidases, phosphodiesterases, and phosphatases. Many CD antigens of leukocytes are ectoâ€enzymes; some CD antigens for which no function is currently known are probably ectoenzymes. Expression is highly regulated and correlated with differentiation and activation. Some are highly restricted in distribution; others are ubiquitous. Many are shared between leukocytes and nonâ€hematogenous cells. Biological functions appear to depend on the type and location of the cell in which expression occurs, and include recycling of nutrients, local control of response to cytokines and hormones, bone formation, cell mobility, invasion, and metastasis. Many novel regulatory functions of ectoâ€enzymes remain to be discovered, and may reveal new mechanisms of local extracellular control of cellular function. J. Leukoc. Biol. 67: 285–311; 2000.
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