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Target Concepts:
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Query: EC:2.7.11.1 (
protein kinase
)
81,284
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In somatic cells, RHOA mediates actin dynamics through a GNA13-mediated signaling cascade involving RHO kinase (ROCK), LIM kinase (LIMK), and cofilin. RHOA can be negatively regulated by
protein kinase A
(PRKA), and it interacts with members of the
A-kinase
anchoring (AKAP) family via intermediary proteins. In spermatozoa, actin polymerization precedes the acrosome reaction, which is necessary for normal fertility. The present study was undertaken to determine whether the GNA13-mediated RHOA signaling pathway may be involved in acrosome reaction in bovine caudal sperm, and whether AKAPs may be involved in its targeting and regulation. GNA13, RHOA, ROCK2, LIMK2, and cofilin were all detected by Western blot in bovine caudal sperm. Overlay, immunoprecipitation, and subsequent mass spectrometry analysis identified several RHOA-interacting proteins, including proacrosin, angiotensin-converting enzyme, tubulin, aldolase C, and AKAP4. Using overlay and pulldown techniques, we demonstrate that phosphorylation of AKAP3 increases its interaction with the RHOA-interacting proteins PRKAR2 (the type II regulatory subunit of PRKA, formerly RII) and ropporin (
ROPN1
, a PRKAR2-like protein, or R2D2). Varying calcium concentrations in pulldown assays did not significantly alter binding to R2D2 proteins. These data suggest that the actin-regulating GNA13-mediated RHOA-ROCK-LIMK-cofilin pathway is present in bovine spermatozoa, that RHOA interacts with proteins involved in capacitation and the acrosome reaction, and that RHOA signaling in sperm may be targeted by AKAPs. Finally, AKAP3 binding to PRKAR2 and
ROPN1
is regulated by phosphorylation in vitro.
...
PMID:Identification and characterization of RHOA-interacting proteins in bovine spermatozoa. 1792 27
A-kinase
anchoring proteins (AKAPs) bind to
protein kinase A
(
PKA
) via an amphipathic helix domain that interacts with a dimerization/docking domain on the regulatory (R) subunit of
PKA
. Four other mammalian proteins (
ROPN1
, ASP, SP17, and CABYR) also contain a highly conserved RII dimerization/docking (R2D2) domain, suggesting all four proteins may interact with all AKAPs in a manner similar to RII. All four of these proteins were originally detected in the flagellum of mammalian sperm. In this report, we demonstrate that all four R2D2 proteins are expressed in a wide variety of tissues and three of the proteins SP17, CABYR, and ASP are located in motile cilia of human bronchus and fallopian tubes. In addition, we detect SP17 in primary cilia. We also provide evidence that
ROPN1
and ASP bind to a variety of AKAPs and this interaction can be disrupted with anchoring inhibitor peptides. The interaction of SP17 and CABYR with AKAPs appears to be much more limited. None of the R2D2 proteins appears to bind cAMP, a fundamental characteristic of the regulatory subunits of
PKA
. These observations suggest that R2D2 proteins utilize docking interactions with AKAPs to accomplish their function of regulating cilia and flagella. Based on location, affinity for AKAPs and lack of affinity for cAMP, it appears that each R2D2 protein has a unique role in this process.
...
PMID:Protein kinase A RII-like (R2D2) proteins exhibit differential localization and AKAP interaction. 1842 3
Protein kinase A (PKA) signaling is targeted by interactions with
A-kinase
anchoring proteins (AKAPs) via a dimerization/docking domain on the regulatory (R) subunit of PKA. Four other mammalian proteins [AKAP-associated sperm protein (ASP), ropporin (
ROPN1
), sperm protein 17 (SP17) and calcium binding tyrosine-(Y)-phosphorylation regulated protein (CABYR)] share this highly conserved RII dimerization/docking (R2D2) domain. ASP and
ROPN1
are 41% identical in sequence, interact with a variety of AKAPs in a manner similar to PKA, and are expressed in ciliated and flagellated human cells. To test the hypothesis that these proteins regulate motility, we developed mutant mouse lines lacking ASP or
ROPN1
. Both mutant lines produced normal numbers of cilia with intact ciliary ultrastructure. Lack of
ROPN1
had no effect on ciliary motility. However, the beat frequency of cilia from mice lacking ASP is significantly slower than wild type, indicating that ASP signaling may regulate ciliary motility. This is the first demonstration of in vivo function for ASP. Similar localization of ASP in mice and humans indicates that these findings may translate to human physiology, and that these mice will be an excellent model for future studies related to the pathogenesis of human disease.
...
PMID:Loss of ASP but not ROPN1 reduces mammalian ciliary motility. 2202 Nov 75
The fibrous sheath (FS) is a flagellar cytoskeletal structure unique to sperm that surrounds the outer dense fibers and axoneme. Its primary components are
A-kinase
anchoring proteins (AKAPs) 3 and 4, which suggests that the FS affects flagellar beating via the scaffolding of signaling pathways necessary for motility. Sperm proteins
ROPN1
and ROPN1L bind AKAP3. To determine the role of
ROPN1
and ROPN1L in sperm function, we created mice deficient in
ROPN1
(RKO), mice deficient in ROPN1L (RLKO), and double knockout mice (DKO). All three strains of mice had normal testicular morphology and spermatogenesis. Only the DKOs had obvious defects in sperm morphology (thinning and shredding of the principal piece), which was accompanied by a reduction in AKAP3 levels. RLKO mice had slightly reduced sperm motility and increased levels of
ROPN1
. RKO mice had moderately impaired motility and increased levels of ROPN1L. DKO sperm were immotile. We have previously determined that RKO male mice are subfertile, and DKO males are infertile. Together these data indicate that ROPN1L and
ROPN1
compensate for each other in the absence of the opposing protein, possibly to maintain AKAP3 incorporation in the FS. Sperm from mice lacking ROPN1L exhibited reductions in both
cAMP-dependent protein kinase
(
PKA
) phosphorylation of a 270-kDa protein (perhaps FSCB), and in capacitation-induced tyrosine phosphorylation. Sperm from mice lacking
ROPN1
had reduced levels of FSCB and increased tyrosine phosphorylation of noncapacitated sperm. These data demonstrate that mutations in
ROPN1
and ROPN1L can cause defects in FS integrity, sperm motility, and
PKA
-dependent signaling processes, leading to male infertility.
...
PMID:Loss of R2D2 proteins ROPN1 and ROPN1L causes defects in murine sperm motility, phosphorylation, and fibrous sheath integrity. 2330 79
Fibrous sheath CABYR binding protein (FSCB) is regulated by
protein kinase A
(
PKA
)-mediated tyrosine phosphorylation in the spermatozoa capacitation. Recently, we showed that FSCB phosphorylation activated spermatozoa motility. Nevertheless, the underlying mechanisms have not been completely elucidated. Here, we showed that FSCB phosphorylation inhibited SUMOylation of two crucial proteins
ROPN1
/ROPN1L that are associated with
PKA
/A kinase activity and spermatozoa motility. Suppression of SUMOylation of
ROPN1
/ROPN1L mimicked the effects of FSCB phosphorylation on spermatozoa motility. Immunoprecipitation assay showed that phosphorylated FSCB had a significantly higher affinity to
ROPN1
/ROPN1L than non-phosphorylated FSCB. Together, our data suggest that FSCB phosphorylation may regulate mouse spermatozoa capacitation through suppressing SUMOylation of
ROPN1
/ROPN1L, which sheds new light on creating a therapeutic strategy targeting FSCB phosphorylation in the study of infertility.
...
PMID:FSCB phosphorylation regulates mouse spermatozoa capacitation through suppressing SUMOylation of ROPN1/ROPN1L. 2739 60
