sperm capacitation2
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What is capacitation?
• It is a process that allows the acrosome reaction to occur, So the sperm can penetrate the zona pellucida of the oocyte.
• The physiological changes that confer on the sperm the ability to fertilize are called Capacitation.
Introduction
• After leaving the testis, mammalian spermatozoa are morphologically differentiated but have acquired neither progressive motility nor the ability to fertilize a metaphase II arrested egg.
• During epididymal transit, sperm acquire the ability to move progressively; but they are still fertilization incompetent.
Int.Cont.• Fertilization capacity is gained after
residence in the female tract for a finite time.
• Capacitation is also correlated with changes in sperm motility patterns, designated as sperm hyperactivation.
• Capacitation causes head changes (acrosome reaction) and tail changes (motility changes).
Capacitation consists of at least two components:
1- An initial membrane alteration, that allows spermatozoa to undergo the second phase, which is the fusion of plasma membrane with outer acrosomal membrane.
-The first phase is referred to as capacitation.
- The second phase is referred to as acrosome reaction(AR).
Original Models of CapacitationEpididymal Capacitated
FemaleTract+
Ejaculated
SeminalPlasma+
Decapacitation Factors
Sperm tail changes after capacitation
What cause sperm capacitation?
• In vivo the oviduct and uterus fluids capacitate the spermatozoa in different animals.
• In vitro, both caudal or ejaculated sperm capacitate when incubate under a variety of conditions in defined madia.
In Vitro Sperm capacitationThe sperm cell is programmed to undergo
capacitation when it is incubated in the appropriate medium.
1-Role of media constituents. - Serum albumin.
- Calcium.
- Bicarbonate.
2- Effectors and intracellular messengers. - Cyclic AMP metabolism.
- Protein tyrosine phosphrylation.
In Vitro capacitation Cont.
- pH.
- Membrane potential.
- Free radicals.
- Heparin.
- Glucose.
Ejaculated spermatozoa
• Contain decapacitated agent.
Initial Events in Capacitation
• Decapacitation factor removal– Time dependent– Induced by binding of a capacitating agent
• Glycosaminoglycans - heparin or heparan sulfate– Components of extracellular matrix of uterine and
oviduct cells
– Induced by cholesterol removal• Acceptor is albumin
– Sequence not clear
Ejaculated SpermD F
Plasma Membrane
Cytoplasm
Nucleus
Acrosome
D F
Cytoplasm
Nucleus
Acrosome
GAG
Cholesterol
Chol-AcceptorD FD FD F
D F
Heparin
Time?
Albumin
Role of media constituents
-Serum albumin ( usually bovine serum albumin) BSA.
. BAS during in vitro capacitation remove cholestrol from sperm plasma membrane.
BSA A1 BSA-chol.Sperm plasma membrane
Cholestrol efflux
Role of media constituents
-Calcium:increase in intracellular Ca during capacitation.
Capacitate sperm with heparin requires extracellular calcium.
When medium Ca decline the time required for capacitation increases.
Sperm plasma membrane
Cholesterol effluxBSA BSA-chol. Ca
Ca
A2
A1
Ejaculated SpermD F
Plasma Membrane
Cytoplasm
Nucleus
Acrosome
D F
Cytoplasm
Nucleus
Acrosome
GAG
Cholesterol
Chol-AcceptorD FD FD F
D F
Heparin
Time?
Albumin
ATP ADP(+(
Decapacitation Factors
( Seminal Plasma) DF
Ca2+
•Ejaculated Sperm•>> Active Ca2+ ATPase
•Removal DF>> Decreased Ca2+-ATPase
Low Ca
(-)
Heparin and Cholesterol Removal
Ca2+ Ca2+
Na+
Ca2+
H+
Increasing Ca
Role of media constituents
-Bicarbonate:Transmembrane movement of HCO3 responsible for increase in intracellular pH that is observed during capacitation.
SPM Cholesterol efflux
BSA BSA-chol.A1 Ca
Ca
A2+
HCO3
HCO3
A3 AC
+ +
Intracellular second messengers
• Intracellular messenger mediating capacitation will be considered from two respective.
- The regulatory system that appear to be common among different species.
- The regulatory process that may be unique to one or more species.
Intracellular second messenger cont.
-Cyclic AMP metabolism:The protein kinase A (PK-A) activity increases during sperm capacitation as a result of elevation intracellular cAMP.
- The mode of regulation of cAMP metabolism during sperm capacitation may be integrated with changes in Ca and HCO3 movement.
S.P.M. Cholesterol efflux
BSAA1 BSA-chol.
+
HCO3
HCO3
A3
Ca
A2
Ca
+ +
AC
cAMPPDE
+
PK-A
5`AMP
Role of cAMP in sperm capacitation
B1
- Protein tyrosine phosphorylation
• Protein tyrosine phosphorylation mediates a variety of cellular function .
• The increase in protein tyrosine phosphorylation is dependent on the presence of BSA, Ca and NaHCO3 in the medium.
• The role of protein tyrosine phosphorylation in sperm capacitation is regulated through a PK-A.
Cholesterol efflux
BSAA1 BSA-chol.
+
HCO3
HCO3
A3
Ca
A2
Ca
+ +
AC
cAMPPDE
+
PK-A
5`AMP
S.P.M.
PTK
+
+
-Ptyr-Ptase
-
Protein tyrosine phosphrylation
B1
B2
Intracellular pH
• The pH increase during sperm capacitation.
• Increase pH during bovine sperm capacitation by heparin.
Cholesterol efflux
BSAA1 BSA-chol.
+
HCO3
HCO3
A3
Ca
A2
Ca
+ +
AC
cAMPPDE
+
PK-A
PTK
+
+
-Ptyr-Ptase
-
Protein tyrosine phosphrylation
B1
B2
5`AMP
S.P.M.
RecheparinCa
cAMP
pHB3
- Membrane potential
• Capacitation is accompanied by the hyperpolarization of the sperm plasma membrane.
• Membrane hyperpolarization is due to an enhanced k permeability.
Cholesterol efflux
BSAA1 BSA-chol.
+
HCO3
HCO3
A3
Ca
A2
Ca
+ +
AC
cAMPPDE
+
PK-A
PTK
+
+
-
-
B1
B2
RecCa
cAMP
pHB3 5`AMP
Ptyr-Ptase
Protein tyrosine phosphrylation
S.P.M.
heparin
KK
hyperpolarization
+B4
Capacitation
-Free radicals
• The free radicals has a role in sperm lipid peroxidation and sperm viability.
• Superoxide anion cause capacitation and hyperactivationof the spermatozoa.
• Reactive oxygen regulate protein tyrosine phosphorelation of several protein.
Cholesterol efflux
BSAA1 BSA-chol.
+
HCO3
HCO3
A3
Ca
A2
Ca
+ +
AC
cAMPPDE
+
PK-A
PTK
+
+
-
-
B1
B2
RecCa
cAMP
pHB3
heparin
KK
hyperpolarization
+B4
Capacitation
5`AMP
Protein tyrosine phosphrylation
Ptyr-Ptase
S.P.M.
O2
NOB5a
B5b
-Heparin
• Bovine in vitro sperm capacitation can be accomplished in media containing heparin.
• The active capacitating agent in the oviduct fluid is though to be a heparin-like glycosaminoglycan.
• The glycosaminoglycan may promote capacitation by binding to and removing seminal plasma protein.
• Heparin increases cAMP synthesis,elevate pH and regulate the capacitation-associated changes.
Ejaculated SpermD F
Plasma Membrane
Cytoplasm
Nucleus
AcrosomeAcrosome
D F
Cytoplasm
Nucleus
AcrosomeAcrosome
GAG
Cholesterol
Chol-AcceptorD FD FD F
D F
Heparin
Time?
Albumin
Cholesterol efflux
BSAA1 BSA-chol.
+
HCO3
HCO3
A3
Ca
A2
Ca
+ +
AC
cAMPPDE
+
PK-A
PTK
+
+
-
-
B1
B2
RecCa
cAMP
pHB3
heparin
KK
hyperpolarization
+B4
Capacitation
5`AMP
Protein tyrosine phosphrylation
Ptyr-Ptase
O2
NOB5a
B5b
S.P.M.
+
B6
-Glucose
• Glucose has inhibitory or stimulatory actions on capacitation is controversial and is species dependent.
• In bovine glucose inhibits heparin-induced capacitation in vitro.
• Capacitation medium for mouse sperm, which contains glucose has no inhibatory effects .
Cholesterol efflux
BSAA1 BSA-chol.
+
HCO3
HCO3
A3
Ca
A2
Ca
+ +
AC
cAMPPDE
+
PK-A
PTK
+
+
-
-
B1
B2
RecCa
cAMP
pHB3
heparin
KK
hyperpolarization
+B4
Capacitation
5`AMP
Protein tyrosine phosphrylation
Ptyr-Ptase
O2
NOB5a
B5b
+
B6
S.P.M.
glucose Gluc.
pyruvate
2ATP 2NADH 2H
-
B7
The Acrosome ReactionPlasma Membrane
Acrosome
Fused PlasmaMembrane and
Outer AcrosomalMembrane
Nucleus
AcrosinHyaluronidase
