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Query: EC:3.4.21.73 (
urokinase-type plasminogen activator
)
10,685
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Further evidence is presented that the acrosomal proteinase acrosin exists as a zymogen precursor in freshly ejaculated boar
spermatozoa
. Autoactivation of proacrosin to acrosin takes place optimally at slightly alkaline pH and in the presence of calcium ions. Activation is considerably accelerated by catalytic amounts of trypsin or highly purified acrosin. A significant acceleration of the activation is also achieved by porcine pancreatic and urinary kallikrein, whereas chymotrypsin, plasmin, thrombin or
urokinase
showed no effect. Activation can be inhibited by p-amino-benzamidine and p-nitrophenyl p'-guanidino-benzoate. Electrophoretic analysis at different stages of activation revealed that during this process various molecular forms of acrosin are produced, apparently by limited proteolysis.
...
PMID:Multiple forms of boar acrosin and their relationship to proenzyme activation. 0 66
We have recently shown that
spermatozoa
of various species contain both types of plasminogen activator, the tissue-type (t-PA) and the
urokinase
-type (
u-PA
). In the present study, the localization of t-PA and
u-PA
in plasma membrane and outer acrosomal membrane of human and boar
spermatozoa
has been investigated. The identification of the type of the plasminogen activator (t-PA or
u-PA
) was made immunologically. In human
spermatozoa
, the outer acrosomal membrane and plasma membrane contained both types of plasminogen activator (t-PA and
u-PA
); in addition, t-PA antigen was measured. In boar
spermatozoa
, the outer acrosomal membrane contained only t-PA, whereas plasma membrane contained both types of plasminogen activator (t-PA and
u-PA
). Plasminogen activator inhibition (PAI) has also been demonstrated in plasma and outer acrosomal membranes of both species and identified as PAI-1 in membranes of human
spermatozoa
.
...
PMID:Plasminogen activator: the identification of an additional proteinase at the outer acrosomal membrane of human and boar spermatozoa. 135 44
When ejaculated mouse
spermatozoa
were embedded in a plasminogen-containing insoluble protein substrate, a zone of proteolysis developed progressively, centered around the sperm head region. Lysis did not occur in absence of plasminogen or in presence of antibodies against the
urokinase-type plasminogen activator
(
u-PA
). Zymographic and immunological analyses confirmed the presence of
u-PA
in extracts of ejaculated mouse
spermatozoa
. In contrast, the
u-PA
activity of sperm cells obtained from testis or from vas deferens was low, although these cells were able to bind added murine
u-PA
. The sites of
u-PA
synthesis were identified by measuring
u-PA
activity and
u-PA
mRNA content in protein extracts and in total RNA preparations of various portions of the male genital tract. The highest levels of
u-PA
activity and of
u-PA
mRNA were found in vas deferens and seminal vesicles. The cells that synthesize
u-PA
were localized by hybridizing frozen sections of various portions of the genital tract to a
u-PA
cRNA probe. In all tissues examined,
u-PA
mRNA was predominantly located in the epithelial layer, and the strongest signal was observed over that of the vas deferens. Hence, the
u-PA
associated with ejaculated sperm cells is probably acquired from genital tract secretions. Sperm-bound
u-PA
may participate in the proteolytic events that accompany capacitation and fertilization.
...
PMID:Plasminogen activator and mouse spermatozoa: urokinase synthesis in the male genital tract and binding of the enzyme to the sperm cell surface. 310 63
Plasminogen activator (PA) is secreted cyclically (in stages VII and VIII) by rat seminiferous tubules. To investigate whether this can be maintained and influenced in vitro, tubule segments from stages VI and VIII of the epithelial cycle were cultured for 3 days in chemically defined medium supplemented with testosterone, FSH, or a combination of testosterone, FSH, insulin and retinoic acid (4F). Morphological and flow cytometric analyses of stage VI tubules suggested a roughly normal differentiation to stage VIII. They developed an increased PA secretion on day 3 of culture. Stage VIII tubules, however, did not develop all the characteristics of stage XII. Step 8 spermatids did not elongate and step 19 spermatids failed to develop into
spermatozoa
. Secretion of PA on day 3 was not significantly different to that on day 1. The 4F combination very significantly stimulated PA secretion in both stages, but FSH alone was effective only in stage VIII. Most of the secreted PA had a molecular weight of 43,000 in both stages, suggesting that it is of
urokinase
type. The results suggest that stage VI is more able to differentiate in vitro for 3 days than stage VIII; the cyclic secretion pattern of PA was partially maintained in tubule segments from stage VI. Follicle-stimulating hormone had an effect on PA secretion only in stage VIII, whereas the 4F combination was stimulatory in both stages. The retinoic acid in this combination may be of importance in the regulation of PA secretion by seminiferous tubules.
...
PMID:Regulation of stages VI and VIII of the rat seminiferous epithelial cycle in vitro. 370 Dec 34
In line TGR(mRen2)26 transgenic rats (TGR26) bearing a randomly inserted additional renin transgene, the males, but not the females, were found to be infertile. Tissue was obtained from TGR26 males and littermate controls after perfusion fixation, and the morphology of the testes and epididymides was examined. Testis size was normal as was gross morphology, but careful examination revealed that the release of many
spermatozoa
at stage IX of the spermatogenic cycle was impaired. In addition, the process of cytoplasmic elimination was abnormal, as cytoplasmic fragments of elongate spermatids were present in the epididymis. In TGR26 males, seminiferous tubule lumen size was significantly larger (p < 0.001) than in littermate controls, a difference that was most marked at stages IX-XIV--an effect that could be related to the retention of
spermatozoa
. In situ hybridization confirmed that expression of renin mRNA could be detected in testes of TGR26 rats but not in normal controls or in a fertile line (TGR27) of rats bearing the same transgene. Immunocytochemistry and in situ and Northern hybridization were used to elucidate the pattern of expression of genes that previous studies have implicated in the process of sperm maturation and/or release. Of the gene products examined (sulphated glycoproteins 1 and 2 [SGP-1, SGP-2], transition proteins 1 and 2 [TP-1, TP-2],
urokinase
, and cyclic protein 2 [CP-2]), none showed any major change in the pattern of expression compared with that in controls. We postulate that TGR26 transgenic male rats may be infertile because the expression of a gene (or genes) involved in the process of cytoplasmic elimination and/or sperm release has been disrupted by the presence of the transgene close to or within the gene(s). Future planned studies will involve determination of the insertion site(s) and ultrastructural analysis of the final phases of spermiogenesis.
...
PMID:Infertility in a transgenic rat due to impairment of cytoplasmic elimination and sperm release from the Sertoli cells. 766 52
In line TGR(mRen2)26 transgenic rats (TGR26) bearing a randomly inserted additional renin transgene, the males, but not the females, were found to be infertile. Tissue was obtained from TGR26 males and littermate controls after perfusion fixation, and the morphology of the testes and epididymides was examined. Testis size was normal as was gross morphology, but careful examination revealed that the release of many
spermatozoa
at stage IX of the spermatogenic cycle was impaired. In addition, the process of cytoplasmic elimination was abnormal, as cytoplasmic fragments of elongate spermatids were present in the epididymis. In TGR26 males, seminiferous tubule lumen size was significantly larger (p < 0.001) than in littermate controls, a difference that was most marked at stages IX-XIV--an effect that could be related to the retention of
spermatozoa
. In situ hybridization confirmed that expression of renin mRNA could be detected in testes of TGR26 rats but not in normal controls or in a fertile line (TGR27) of rats bearing the same transgene. Immunocytochemistry and in situ and Northern hybridization were used to elucidate the pattern of expression of genes that previous studies have implicated in the process of sperm maturation and/or release. Of the gene products examined (sulphated glycoproteins 1 and 2 [SGP-1, SGP-2], transition proteins 1 and 2 [TP-1, TP-2],
urokinase
, and cyclic protein 2[CP-2], none showed any major change in the pattern of expression compared with that in controls. We postulate that TGR26 transgenic male rats may be infertile because the expression of a gene (or genes) involved in the process of cytoplasmic elimination and/or sperm release has been disrupted by the presence of the transgene close to or within the gene(s). Future planned studies will involve determination of the insertion site(s) and ultrastructural analysis of the final phases of spermiogenesis.
...
PMID:Infertility in a transgenic rat due to impairment of cytoplasmic elimination and sperm release from the Sertoli cells. 749 73
At the time of fertilization both murine gametes express plasminogen-dependent proteolytic activity: unfertilized eggs secrete tissue-type plasminogen activator and ejaculated
spermatozoa
have
urokinase-type plasminogen activator
bound to their surface. We now report that plasminogen is present in the fertilization environment and that both
spermatozoa
and eggs are able to specifically bind plasminogen. Furthermore, in vitro fertilization of mouse eggs is inhibited by antibodies which inhibit the catalytic activity of plasmin. Finally, with two different in vitro fertilization protocols, the addition of plasminogen to the fertilization medium increases the yield of fertilized eggs. These results provide evidence for a role of the plasminogen activator/plasmin proteolytic cascade in mammalian fertilization.
...
PMID:Involvement of the plasminogen activator/plasmin proteolytic cascade in fertilization. 838 18
Plasminogen activator activity (PAA) and plasminogen activator inhibition (PAI), against t-PA (t-PAI) or
u-PA
(u-PAI), in
spermatozoa
and seminal plasma as well as testosterone in the blood of Friesland, Chios, and Karagouniki rams all showed a seasonal variation with the highest values during the corresponding breeding season of the ewes (Autumn-Winter). The seasonal variation of PAA and PAI in
spermatozoa
or seminal plasma as well as blood testosterone was different among the three breeds studied. Increased spermatozoal PAA was observed in November and May in Friesland rams, in October and November in Chios rams, and in October in Karagouniki rams. Spermatozoal t-PAI was increased in December and June in Friesland rams, in November and December in Chios rams, and in November in Karagouniki rams. Spermatozoal u-PAI was increased in December in Friesland rams, in October and December in Chios rams, and in November and December in Karagouniki rams. Plasminogen activator activity and PAI in seminal plasma also showed similar seasonal variations. Plasminogen activator activity and PAI in
spermatozoa
and seminal plasma showed a positive correlation with blood testosterone. The results of the present study support our previous findings on the possible role of spermatozoal PAA and PAI in the fertilizing ability of
spermatozoa
.
...
PMID:Breed and seasonal variation of plasminogen activator activity and plasminogen activator inhibition in spermatozoa and seminal plasma of the ram in correlation with testosterone in the blood. 846 94
Isolated seminiferous tubules of rat testis contain considerable
urokinase
-inhibiting activity. An immunohistological analysis revealed the presence of plasminogen activator inhibitor type 1 (PAI-1) in the basement membrane as well as in the interior of the tubules. Distribution and intensity of the intratubular immunoreactivity depends on the stage of the seminiferous cycle. A relatively weak signal is present around elongated nuclei of spermatids at the beginning of chromatin condensation. The signal intensity increases in the course of differentiation until a maximum is reached at stages VII-VIII. In these stages PAI-1 immunoreactivity is localised around the nuclei of the late spermatids as well as along their tails. Spermatozoa in the ductus epididymis also strongly react with the PAI-1-specific antiserum, suggesting that the inhibitor remains associated with the germ cells after spermiation and during maturation in the epididymis. In intact mature
spermatozoa
isolated from epididymis cauda by "swimming-up' in non-capacitation medium, PAI-1 antigen is localised on the plasma membrane surrounding the head. In addition, in fixed and permeabilised cells the immunoreactivity is detectable in the acrosome and in the tail. Possible functions of PAI-1 in spermatogenesis, sperm motility and sperm-egg interaction are discussed.
...
PMID:Plasminogen activator inhibitor type 1 in rat spermatozoa: localisation in the tail, in the acrosome and on the surface of the head. 878 83
Two types of plasminogen activators (PA), tissue type (tPA) and
urokinase
type (
uPA
), were identified in the seminal plasma of both the human and the rhesus monkey. We studied the possible relationship between PA activities in the seminal plasma and the sperm counts and motility and demonstrated that: (i) PA activity in human seminal plasma from infertile patients was associated with immotile
spermatozoa
; (ii) the treatment of fertile men with testosterone enanthate (TE) to induce azoospermia was accompanied by an increase in seminal PA activity; (iii) when monomer T4 (isolated from multiglycosides of Tripterygium wilforddi) was administered to fertile male rhesus monkeys to induce azoospermia, PA activities in seminal plasma increased considerably; and (iv) immunocytochemistry studies showed that both
uPA
and PAI-1 antigens were localized on the surface of human
spermatozoa
, indicating that human
spermatozoa
were capable of binding
uPA
and PAI-1 through their receptors or forming a complex. These data demonstrate that seminal PA activity may be related to azoospermia, and possibly, to the fertilizing capability of
spermatozoa
in primates.
...
PMID:Preliminary studies on the role of plasminogen activator in seminal plasma of human and rhesus monkey. 923 65
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