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PDBsum entry 4igd
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References listed in PDB file
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Key reference
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Title
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Quantitative characterization of the activation steps of mannan-Binding lectin (mbl)-Associated serine proteases (masps) points to the central role of masp-1 in the initiation of the complement lectin pathway.
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Authors
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M.Megyeri,
V.Harmat,
B.Major,
Ć..Végh,
J.Balczer,
D.Héja,
K.Szilágyi,
D.Datz,
G.Pál,
P.Závodszky,
P.Gál,
J.Dobó.
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Ref.
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J Biol Chem, 2013,
288,
8922-8934.
[DOI no: ]
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PubMed id
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Abstract
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Mannan-binding lectin (MBL)-associated serine proteases, MASP-1 and MASP-2, have
been thought to autoactivate when MBL/ficolinĀ·MASP complexes bind to pathogens
triggering the complement lectin pathway. Autoactivation of MASPs occurs in two
steps: 1) zymogen autoactivation, when one proenzyme cleaves another proenzyme
molecule of the same protease, and 2) autocatalytic activation, when the
activated protease cleaves its own zymogen. Using recombinant catalytic
fragments, we demonstrated that a stable proenzyme MASP-1 variant (R448Q)
cleaved the inactive, catalytic site Ser-to-Ala variant (S646A). The
autoactivation steps of MASP-1 were separately quantified using these mutants
and the wild type enzyme. Analogous mutants were made for MASP-2, and rate
constants of the autoactivation steps as well as the possible cross-activation
steps between MASP-1 and MASP-2 were determined. Based on the rate constants, a
kinetic model of lectin pathway activation was outlined. The zymogen
autoactivation rate of MASP-1 is ā¼3000-fold higher, and the autocatalytic
activation of MASP-1 is about 140-fold faster than those of MASP-2. Moreover,
both activated and proenzyme MASP-1 can effectively cleave proenzyme MASP-2.
MASP-3, which does not autoactivate, is also cleaved by MASP-1 quite
efficiently. The structure of the catalytic region of proenzyme MASP-1 R448Q was
solved at 2.5 ā«. Proenzyme MASP-1 R448Q readily cleaves synthetic substrates,
and it is inhibited by a specific canonical inhibitor developed against active
MASP-1, indicating that zymogen MASP-1 fluctuates between an inactive and an
active-like conformation. The determined structure provides a feasible
explanation for this phenomenon. In summary, autoactivation of MASP-1 is crucial
for the activation of MBL/ficolinĀ·MASP complexes, and in the proenzymic phase
zymogen MASP-1 controls the process.
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