Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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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)
Dysplasia of the fibrous sheath (DFS) is characterized by male infertility, asthenozoospermia, and morphologically abnormal flagella that possess a severely malformed fibrous sheath. In many cases, DFS is familial, suggesting a genetic component. Human AKAP4 and
AKAP3
are structural proteins of the fibrous sheath that also function to anchor protein kinase A to this structure via the regulatory subunit of the kinase. We hypothesized that defects in either AKAP4 or
AKAP3
might cause DFS. No quantitative or qualitative differences between patients with DFS and normal controls were detected when sperm proteins were analyzed by either silver staining or immunoblot analysis using antibodies raised against AKAP4 and
AKAP3
. Additionally, AKAP4 and
AKAP3
from DFS sperm retained the ability to bind the regulatory subunit of
protein kinase A
. Localization at the light and electron microscopic levels showed that
AKAP3
and AKAP4 localized correctly to the FS of the amorphous flagellum in DFS sperm. Partial sequence analysis of the AKAP4 and
AKAP3
genes in patients with DFS did not identify any significant alterations in potential AKAP4/
AKAP3
binding regions, suggesting that the two proteins interact normally in DFS sperm. Our results did not find evidence to support the hypothesis that mutations in either gene are responsible for DFS in humans.
...
PMID:Molecular genetic analysis of two human sperm fibrous sheath proteins, AKAP4 and AKAP3, in men with dysplasia of the fibrous sheath. 1122 5
The fibrous sheath is a unique cytoskeletal structure located in the principal piece of the sperm flagellum and is constructed of two longitudinal columns connected by closely spaced circumferential ribs. Cyclic AMP-dependent protein kinases are secured within specific cytoplasmic domains by
A-kinase
anchoring proteins (AKAPs), and the most abundant protein in the fibrous sheath is AKAP4. Several other fibrous sheath proteins have been identified, but how the fibrous sheath assembles is not understood. Yeast two-hybrid assays and deletion mutagenesis were used to identify AKAP4-binding proteins and to map the binding regions on AKAP4 and on the proteins identified. We found that AKAP4 binds
AKAP3
and two novel spermatogenic cell-specific proteins, Fibrous Sheath Interacting Proteins 1 and 2 (FSIP1, FSIP2). Transcription of Akap4, Akap3, and Fsip1 begins in early spermatid development, whereas transcription of Fsip2 begins in late spermatocyte development.
AKAP3
is synthesized in round spermatids and incorporated into the fibrous sheath concurrently with formation of the rib precursors. However, AKAP4 is synthesized and incorporated into the nascent fibrous sheath late in spermatid development. The AKAP4 precursor is processed in the flagellum and only the mature form of AKAP4 appears to bind
AKAP3
. These results suggest that
AKAP3
is involved in organizing the basic structure of the fibrous sheath, whereas AKAP4 has a major role in completing fibrous sheath assembly.
...
PMID:A-kinase anchoring protein 4 binding proteins in the fibrous sheath of the sperm flagellum. 1260 63
The fibrous sheath is a unique cytoskeletal structure surrounding the axoneme and outer dense fibers and defines the extent of the principal piece region of the sperm flagellum. It consists of two longitudinal columns connected by closely arrayed semicircular ribs that assemble from distal to proximal throughout spermiogenesis. The fibrous sheath is believed to influence the degree of flexibility, plane of flagellar motion, and the shape of the flagellar beat. Nearly half of the protein in fibrous sheaths isolated from mouse sperm is AKAP4. This protein and two others,
AKAP3
and TAKAP-80, have anchoring sites for
cAMP-dependent protein kinase
.
AKAP3
also anchors ropporin, a spermatogenic cell-specific protein that is linked through rhophilin to the small GTPase Rho. Other proteins associated with the fibrous sheath include two enzymes in the glycolytic pathway. Glyceraldehyde 3-phosphate dehydrogenase-s (GAPDS) is the product of a gene expressed only in spermatogenic cells, while hexokinase type 1-s (HK1-S) is derived from alternative transcripts present only in spermatogenic cells. Most of the other glycolytic enzymes in sperm have unique structural or functional properties. The fibrous sheath also contains a spermatogenic cell-specific member of the mu-class glutathione S-transferase family (GSTM5) and an intermediate filament-like protein (FS39). These and other observations indicate that the fibrous sheath functions as a scaffold for proteins in signaling pathways that might be involved in regulating sperm maturation, motility, capacitation, hyperactivation, and/or acrosome reaction and for enzymes in the glycolytic pathway that provide energy for the hyperactivated motility of sperm that allows them to penetrate the zona pellucida.
...
PMID:Fibrous sheath of mammalian spermatozoa. 1267 26
Sperm motility is regulated by a complex balance between kinases and phosphatases. Among them, phosphatidylinositol 3-kinase (PI 3-kinase) has been recently suggested to negatively regulate sperm motility (Luconi, M., Marra, F., Gandini, L., Lenzi, A., Filimberti, E., Forti, G. and Baldi, E. (2001). Hum. Reprod. 16, 1931-1937). We demonstrate the presence and activity of PI 3-kinase in human spermatozoa and have investigated the molecular mechanism(s) by which the PI 3-kinase inhibitor, LY294002, triggers an increase in sperm motility. PI 3-kinase inhibition results in an increase in intracellular cAMP levels and in tyrosine phosphorylation of the
protein kinase A
-anchoring protein
AKAP3
. These effects finally result in a stimulation of
protein kinase A
(
PKA
) binding to
AKAP3
in sperm tails through the regulatory subunit RIIbeta. The increased binding of RIIbeta to
AKAP3
induced by LY294002 is mainly due to tyrosine phosphorylation of
AKAP3
, since it is completely blocked by the tyrosine kinase inhibitor erbstatin, which also reverses the effects of LY294002 on motility and suppresses
PKA
-
AKAP3
interaction. The requirement of
PKA
binding to
AKAP3
for sperm motility is confirmed by the reduction of motility induced by an inhibitor of RIIbeta-
AKAP3
binding, Ht31, whose effects on sperm motility and
PKA
binding to
AKAP3
are reversed by LY294002. These results demonstrate that PI 3-kinase negatively regulates sperm motility by interfering with
AKAP3
-
PKA
binding, providing the first evidence of a molecular mechanism by which
PKA
can be targeted to sperm tails by interaction with tyrosine phosphorylated form of
AKAP3
.
...
PMID:Increased phosphorylation of AKAP by inhibition of phosphatidylinositol 3-kinase enhances human sperm motility through tail recruitment of protein kinase A. 1499 43
Mammalian testicular spermatozoa are immotile, thus, to reach the oocyte, they need to acquire swimming ability under the control of different factors acting during the sperm transit through the epididymis and the female genital tract. Although bicarbonate is known to physiologically increase motility by stimulating soluble adenylate cyclase (sAC) activity of mammalian spermatozoa, no extensive studies in human sperm have been performed yet to elucidate the additional molecular mechanisms involved. In this light, we investigated the effect of in vitro addition of bicarbonate to human spermatozoa on the main intracellular signaling pathways involved in regulation of motility, namely, intracellular cAMP production and protein tyrosine phosphorylation. Bicarbonate effects were compared with those of the phosphatidyl-inositol-3 kinase inhibitor, LY294002, previously demonstrated to be a pharmacological stimulus for sperm motility. Bicarbonate addition to spermatozoa results in a significant increase in sperm motility as well as in several hyperactivation parameters. This stimulatory effect of bicarbonate and LY294002 is mediated by an increase in cAMP production and tyrosine phosphorylation of the A kinase anchoring protein,
AKAP3
. The specificity of bicarbonate effects was confirmed by inhibition with 4,4'-di-isothiocyanostilbene-2,2'-disulfonic acid. We remark that, in human spermatozoa, bicarbonate acts primarily through activation of sAC to stimulate tyrosine phosphorylation of
AKAP3
and sperm motility because both effects are blunted by the sAC inhibitor 2OH-estradiol. In conclusion, our data provide the first evidence that bicarbonate stimulates human sperm motility and hyperactivation through activation of sAC and tyrosine phosphorylation of
AKAP3
, finally leading to an increased recruitment of
PKA
to
AKAP3
.
...
PMID:Tyrosine phosphorylation of the a kinase anchoring protein 3 (AKAP3) and soluble adenylate cyclase are involved in the increase of human sperm motility by bicarbonate. 1534 55
Cyclic AMP plays an important role in regulating sperm motility and acrosome reaction through activation of
cAMP-dependent protein kinase A
(
PKA
). Phosphodiesterases (PDEs) modulate the levels of cyclic nucleotides by catalyzing their degradation. Although PDE inhibitors specific to PDE1 and PDE4 are known to alter sperm motility and capacitation in humans, little is known about the role or subcellular distribution of PDEs in spermatozoa. The localization of
PKA
is regulated by
A-kinase
anchoring proteins (AKAPs), which may also control the intracellular distribution of PDE. The present study was undertaken to investigate the role and localization of PDE4 during sperm capacitation. Addition of Rolipram or RS25344, PDE4-specific inhibitors significantly increased the progressive motility of bovine spermatozoa. Immunolocalization techniques detected both PDE4A and
AKAP3
(formerly known as AKAP110) in the principal piece of bovine spermatozoa. The PDE4A5 isoform was detected primarily in the Triton X-100-soluble fraction of caudal epididymal spermatozoa. However, in ejaculated spermatozoa it was seen primarily in the SDS-soluble fraction, indicating a shift in PDE4A5 localization into insoluble organelles during sperm capacitation.
AKAP3
was detected only in the SDS-soluble fraction of both caudal and ejaculated sperm. Immunoprecipitation experiments using COS cells cotransfected with
AKAP3
and either Pde4a5 or Pde4d provide evidence that PDE4A5 but not PDE4D interacts with
AKAP3
. Pulldown assays using sperm cell lysates confirm this interaction in vitro. These data suggest that
AKAP3
binds both
PKA
and PDE4A and functions as a scaffolding protein in spermatozoa to regulate local cAMP concentrations and modulate sperm functions.
...
PMID:AKAP3 selectively binds PDE4A isoforms in bovine spermatozoa. 1617 23
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
There is an urgent need to develop safe, effective, dual-purpose contraceptive agents that combine the prevention of pregnancy with protection against sexually transmitted diseases. Here we report the identification of a group of compounds that on contact with human spermatozoa induce a state of "spermostasis," characterized by the extremely rapid inhibition of sperm movement without compromising cell viability. These spermostatic agents were more active and significantly less toxic than the reagent in current clinical use, nonoxynol 9, giving therapeutic indices (ratio of spermostatic to cytotoxic activity) that were orders of magnitude greater than this traditional spermicide. Although certain compounds could trigger reactive oxygen species generation by spermatozoa, this activity was not correlated with spermostasis. Rather, the latter was associated with alkylation of two major sperm tail proteins that were identified as A Kinase-Anchoring Proteins (
AKAP3
and AKAP4) by mass spectrometry. As a consequence of disrupted AKAP function, the abilities of cAMP to drive
protein kinase A
-dependent activities in the sperm tail, such as the activation of SRC and the consequent stimulation of tyrosine phosphorylation, were suppressed. Furthermore, analysis of microbicidal activity using Chlamydia muridarum revealed powerful inhibitory effects at the same low micromolar doses that suppressed sperm movement. In this case, the microbicidal action was associated with alkylation of Major Outer Membrane Protein (MOMP), a major chlamydial membrane protein. Taken together, these results have identified for the first time a novel set of cellular targets and chemical principles capable of providing simultaneous defense against both fertility and the spread of sexually transmitted disease.
...
PMID:The spermostatic and microbicidal actions of quinones and maleimides: toward a dual-purpose contraceptive agent. 1933 25
Calcium-binding tyrosine phosphorylation-regulated protein (CABYR) is a highly polymorphic calcium-binding tyrosine- and serine-/threonine-phosphorylated fibrous sheath (FS) protein involved in capacitation. A putative domain (amino acids 12-48) homologous to the regulatory subunit of type II
cAMP-dependent protein kinase A
(RII) dimerisation and A kinase-anchoring protein (AKAP)-binding domains of
protein kinase A
at the N-terminus suggests that CABYR may self-assemble and bind to AKAPs. Moreover, there is evidence that CABYR has limited interaction with AKAPs. However, further evidence and new relationships between CABYR and other FS proteins, including AKAPs, will be helpful in understanding the basic physiology of FS. In this study, a new strategy for co-immunoprecipitation of insoluble proteins, as well as the standard co-immunoprecipitation method in combination with mass spectrometry and western blot, was employed to explore the relationship between CABYR,
AKAP3
and Ropporin. The results showed that
AKAP3
was co-immunoprecipitated with CABYR by the anti-CABYR-A polyclonal antibody, and, conversely, CABYR was also co-immunoprecipitated with
AKAP3
by the anti-
AKAP3
polyclonal antibody. Another RII-like domain containing protein, Ropporin, was also co-immunoprecipitated with CABYR, indicating that Ropporin is one of CABYR's binding partners. The interactions between CABYR,
AKAP3
and Ropporin were confirmed by yeast two-hybrid assays. Further analysis showed that CABYR not only binds to
AKAP3
by its RII domain but binds to Ropporin through other regions besides the RII-like domain. This is the first demonstration that CABYR variants form a complex not only with the scaffolding protein
AKAP3
but also with another RII-like domain-containing protein in the human sperm FS.
...
PMID:CABYR binds to AKAP3 and Ropporin in the human sperm fibrous sheath. 2124 Feb 91
This is a review of ten previously published studies of the human sperm proteome. Proteins expressed on the sperm cell surface were identified and characterized by a combination of vectorial labelling with radioiodine and biotin, PI-PLC treatment, two-dimensional gel electrophoresis, immuno and lectin blotting procedures, affinity overlay assays with radioactive nucleotide triphosphates and 45Ca, and mass spectrometry analysis. Examination of capacitation-induced modifications of the human sperm proteome led to the cloning and characterisation of two new phospho-regulated cancer-testis antigens, which we named Fibrous Sheath Protein 95 (FSP95) and CABYR (calcium-binding tyrosine phosphorylation regulated). A
protein kinase A
RII binding domain is present between amino acids 124 and 141 identifying FSP95 (now commonly known as
AKAP3
) as a member of the A kinase anchoring protein-family which provides spatial and temporal specificity to the cAMP-
PKA
pathway. In addition to scaffolding
PKA
, PDE and protein phosphatases, AKAPs also bind to a group of four proteins that share homology to the RII dimerization/docking (R2D2) domain of
PKA
' regulatory subunit. CABYR, which is one of these four proteins, also interacts with a diverse array of signal tranducers via its SH3-, R2D2-, and proline-rich extension-like domains.
AKAP3
and CABYR appear to associate in high molecular weight multi-protein complexes, which regulate the flagella' energy supply and movements. Diagonal gel electrophoresis experiments suggest that the high molecular weight signal-integrating scaffold partly is established by homo- and hetero-oligomerization of lower molecular weight splice variants of CABYR. The putative role of CABYR in lung cancer cells is finally discussed.
...
PMID:Functional and immunological analysis of the human sperm proteome. 2245 23
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