Transcript Slide 1

DISKUSI KELOMPOK
Kelompok 1
1.
Kelompok 2
1.
Struktur ovarium
Fertilization:
1. Sperm maturation
a. Occurs in the male genital tract:
- in the epididymis is stimulated by epididymal proteins
- in the urethra by mixture with secretions of the seminal
vesicle, prostate and bulbo-urethral glands
b. Is associated with changes in cell surface glycoprotein
c. Results in:
- the progressive motility
- the ability to fertilize an oocyte
2. Sperm Capacitation are:
a. Occurs in the female genital tract
b. Is stimulated by secretions in the vagina , uterus, and uterine
tubes
c. Results in capacity to pass through the corona radiata
Sperm Capacitation
Fresh
ejaculate
Fertil ?
Kapasitasi
Fertil
Perubahan pd Protein seminal
Plasma & reorganisasi Lipid dan
Protein membran sperma, Influx
Ca, cAMP , pH intrasel 
Transpot gamet
Inkubasi di media fertilisasi
Bbrp jam
Motilitas
hiperaktif
Capacitation and fertilization. (A) capacitation, sperm develop hyperactivated
motility, the ability to respond to chemotactic signals and acrosome reactioninducing signals. Capacitated sperm penetrate the cumulus and reach the zona
pellucida. Contact with the zona pellucida triggers acrosome reactions, permitting
sperm to penetrate to the oocyte surface and fuse with the oocyte. Multiple steps
in this process are controlled by capacitation. (B) Simple model of CFTR function
during capacitation, in which HCO3 − entry through CFTR stimulates an sAC/PKA
cascade leading to the activation of downstream effectors and to capacitation.
The tyrosine phosphorylation signaling pathways in capacitation. Three major
signaling pathways, namely cAMP/PKA-dependent pathway (pathway I), receptor
tyrosine kinase pathway (pathway II), and non-receptor protein tyrosine kinase
pathway (pathway III).
Spermatozoa-Zona Pellucida
Sperma
Binding
Interaksi receptor-ligand
(species specificity)
Zona pellusida
(ZP)
3. Acrosome reaction are:
a. Is stimulated by sperm-binding glycoprotein molecules in the
zona pellucida (ZP3, ZP1 and ZP2 ligands)
b. Is accompanied by Ca2+ influx into sperm
c. Results in the release of acrosomal enzymes, which include
hydrolytic enzymes
d. Involves fusion of the acrosome membrane and plasma
membrane
e. Is necessary for sperm penetration through the zona pellucida
Acrosome Reaction
Penetrasi Zona Pellucida
Keberhasilan penetrasi menembus ZP
dipengaruhi oleh:
1. kekuatan ekor spermatozoa (motilitas)
2. kombinasi enzim akrosomal
Sperm
Menerobos
Zona pellusida
(ZP)
Sperm-Oocyte Binding
Sperm
ZP
Binds & Fuses
Membran
oosit
* Proses binding pd bag posterior (post-acrosomal) spermatozoa
* Molekul yang berperan→ glikoprotein : Fertilin
* Peran fertilin: mengikat membran plasma oosit dan induksi fusi
Aktivasi telur & Reaksi Cortical
Oosit
mature
Egg
Metafase
Fertilisasi
Sperm
egg activation
Faktor yang mempengaruhi:
1. Konsentrasi Ca  tinggi
2. Kelengkapan meiosis II
3. Cortical reaction → eksositosis, granula kortikal tampak pendek stlh
fusi sperma-oosit.
Granula kortikal menghslkan bbrp enzim al. protease → difusi dlm ZP
diikuti eksositosis dr telur dan mengubah struktur ZP . Komponen
granula kartikal juga berinteraksi dgn membran plasma oosit.
The Zona Reaction
Reaksi zona
Struktur ZP
Blok polispermia
Katalis protease
ZP mengeras
Rusak reseptor
Sperm di ZP
Hambat sperma
Masuk ZP
Infertil
Polyspermy
•two or more sperm make it into the egg polyspermy occurs
•genetic material condensed into chromosome is attracted to
the extra sperm causing abnormal development and death of
the embryo
• many sperm and toxic conditions can lead to polyspermy
•Polyspermy is a significant problem for fertilization
Dua mekanisme menghambat polispermia:
1. Spermatozoa memicu masuknya ion Na depolarisasi,
yang menghambat pengikatan spermatozoa lain (fast
block)
2. Spermatozoa merangsang pelepasan ion Ca  fusi
vesikula kortikal secara exositosis dengan membran
plasma, dengan melepaskan tripsin-protease untuk
merusak ikatan spermatozoa pada membran vitelline,
ruang kosong tersebut diisi oleh cairan, shg membran
vitelline membentuk dinding lebih permanen (slow
block).
Organel sitoplasma zigot hampir seluruhnya dari oosit:
1. mitokondria DNA hampir seluruhnya oosit
2. penyakit genetik mitokondria umumnya diwariskan
melalui ibu
3. Gen dalam DNA mitokondria oosit diperlukan untuk
fosforilasi oksidatif
4. Sebagian besar penyakit mitokondria mempengaruhi otot
dan saraf, contoh pewarisan penyakit mitokondria
adalah:
- Miopati mitokondria (mempengaruhi otot)
- Atrofi optik Leber (mempengaruhi saraf optik)