doi: 10.1073/pnas.041331498.
Identification of the endogenous smooth muscle myosin phosphatase-associated kinase
Affiliations
- PMID: 11226254
- PMCID: PMC30153
- DOI: 10.1073/pnas.041331498
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Identification of the endogenous smooth muscle myosin phosphatase-associated kinase
Proc Natl Acad Sci U S A.
.
Abstract
Ca(2+) sensitization of smooth muscle contraction involves inhibition of myosin light chain phosphatase (SMPP-1M) and enhanced myosin light chain phosphorylation. Inhibition of SMPP-1M is modulated through phosphorylation of the myosin targeting subunit (MYPT1) by either Rho-associated kinase (ROK) or an unknown SMPP-1M-associated kinase. Activated ROK is predominantly membrane-associated and its putative substrate, SMPP-1M, is mainly myofibrillar-associated. This raises a conundrum about the mechanism of interaction between these enzymes. We present ZIP-like kinase, identified by "mixed-peptide" Edman sequencing after affinity purification, as the previously unidentified SMPP-1M-associated kinase. ZIP-like kinase was shown to associate with MYPT1 and phosphorylate the inhibitory site in intact smooth muscle. Phosphorylation of ZIP-like kinase was associated with an increase in kinase activity during carbachol stimulation, suggesting that the enzyme may be a terminal member of a Ca(2+) sensitizing kinase cascade.
Figures
Determination of the sites of phosphorylation of MYPT1 in
vivo. (A)
[32P]orthophosphate-labeled rabbit bladder was stimulated
with 10 μM carbachol for the indicated times. MYPT1 was
immunoprecipitated from tissue homogenates then resolved by SDS/PAGE.
Increased MYPT1 phosphorylation was determined by autoradiography.
(B) MYPT1 immunoprecipitated from control and carbachol
stimulated rabbit bladder was digested overnight with trypsin; the
32P-labeled peptides obtained were separated on a C18
reverse-phase column and identified by scintillation counting.
(Inset) One of the phosphorylated MYPT1 peptides (no. 2)
was sequenced and its phosphorylation site identified as described
(32).
Endogenous kinase copurifies with SMPP-1M.
(Inset in A) Autoradiography of purified
SMPP-1M shows a phosphorylated band at 110 kDa, correlating with MYPT1.
SMPP-1M was affinity purified as described (13) and the purified enzyme
incubated with 100 μM [γ-32P]ATP and 2 mM
MgCl2. The reaction was terminated with sample buffer and
MYPT1 resolved on SDS/PAGE gels. (B) Purified M110
kinases accelerates the rate of SMPP-1M inactivation in
vitro. Purified SMPP-1M was incubated for the indicated times
with Mg/ATP (2 mM/100 μM) in the presence (○) or
absence (●) of affinity purified M110 kinase.
Note: Inactivation of SMPP-1M in the absence of exogenously added M110
kinase was due to the presence of endogenous copurifying
kinase activity. (A) The myofibrillar extract from
rabbit bladder was resolved on an AP-1Q (0.5 cm × 7 cm) anion
exchange column; the column was developed with a 0–1-M NaCl gradient.
SMPP-1M (●) was assayed against
32P-labeled myosin and SMPP-1M kinase activity (λ) was
assayed against the Thr697 substrate peptide
(KKKRQSRRSTQGVTL).
Purification of SMPP-1M-associated kinase. (A) SMPP-1M kinase was
eluted from a SMART MiniQ (1.6/5) anion exchange column with a 0–1-M
NaCl gradient and identified by using both in vitro and
in-gel kinase assays. (Inset b) The autoradiogram of the
in-gel assay localized kinase activity to a discrete protein band at 32
kDa. (Inset c) The results obtained from phosphoamino
acid analysis (33) of Thr697 substrate peptide
phosphorylated during the in vitro assay by purified
SMPP-1M kinase. Phosphorylated Thr697 substrate peptide was
sequenced and its phosphorylation site determined as described (32).
(Inset d) In-gel kinase assay comparing purified PKA (1
μg) control with purified SMPP-1M kinase. A control gel run in the
absence of Thr697 substrate peptide was blank.
Identification of SMPP-1M-associated kinase by mixed peptide
sequencing. Mixed sequence is listed in order of the PTH amino acids
recovered after each Edman cycle. Sequence data shown was derived from
200 fmol of protein. fastf was used to search and match the
mixed sequences to the National Center for Biotechnology Information
(NCBI)/Human protein database. The scoring matrix was MD20, with
expectation and score values set to <1 and 5, respectively (23). The
highest scoring proteins were: human ZIPK, (e) 5.1 e-14; human pDAPK3,
(e) 5.1 e-14; and rat DAP-like kinase, (e) 2.1 e-7. The next highest
unrelated protein score was d -glycerate dehydrogenase,
(e) 0.0011.
ZIP-like kinase properties toward MYPT1. (A) Effect of
ROK inhibitor Y-27632 on ZIPK and ZIP-like kinase. Kinases were assayed
in vitro against the Thr697 peptide.
(B) Substrate concentration dependence of purified
bladder ZIP kinase (○), and ROK (●).
(Inset C) Autoradiograms showing phosphorylation of
chicken gizzard full-length MYPT1 (18), rM133, and chicken gizzard
C-terminal fragment (C130514–963; ref. 34) by purified
bladder ZIPK and ROK in vitro. Data are means ±
SEM of three separate experiments. (Inset D)
Identification of the autophosphorylation sites on ZIPK.
Association of SMPP-1M with ZIP-like kinase. (A) MYPT1
was immunoprecipitated and ZIP-like kinase measured in the
immunoprecipitate. Alternatively, ZIP-like kinase was
immunoprecipitated and myosin phosphatase measured against
(B) glycogen phosphorylase a or
(C) myosin. (Inset d) Tissue extracts
from bladder were immunoprecipitated with anti-MYPT1 antibody, resolved
on SDS/PAGE, and immunoblotted for ZIPK. (Inset e)
Tissue extracts from bladder were immunoprecipitated with anti-ZIPK
antibody, resolved on SDS/PAGE, and immunoblotted for MYPT1.
Carbachol affects ZIP-like kinase phosphorylation and activity in
smooth muscle. [32P]orthophosphate-labeled rabbit bladder
was stimulated with 50 μM carbachol in the presence of 10 μM
calyculin A. Triton-extracted tissue pellets were fractionated on a
SMART MiniQ (1.6/5 cm) column. (a) Aliquots of
fractions were run on SDS/PAGE gels and subjected to autoradiography
(b) to visualize phosphorylation. Western immunoblots
were used to identify the protein bands that corresponded with ZIPK.
SMART fractions from both control (C) and carbachol-treated (T) bladder
containing ZIP-like kinase were pooled, immunoprecipitated with
anti-ZIP kinase antibody, and resolved on SDS/PAGE before
autoradiography (b). (b)
Carbachol/calyculin A treatment increase ZIP-like kinase activity.
Homogenates were prepared and MYPT1 was immunoprecipitated.
Immunoprecipitates were assessed in duplicate for ZIP-like kinase
activity. Activity shown was derived following subtraction of
nonspecific background kinase activity that was also present in the
immunoprecipitate. Data represent the means ± SEM of five
separate experiments. *, significantly different from the
control value by the Student-Newman-Keuls test, P
< 0.05; **, significantly different from the
carbachol/calyculin A treatment, P < 0.05.
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