Gametogenesis,_Fertilization,_&_first_three_weeks_of_human_Development.pdf

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INTRODUCTION TO
GAMETOGENESIS, FERTILIZATION, 1ST 3 WEEKS
2024 MSPC 112 – L2
BY
FREDERICK K. ADDAI, PH.D., FWACM
DEPT. OF ANATOMY, UGMS
POSITIVE
THOUGHT

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 STUDENT’S LEARNING OUTCOMES

YOU SHOULD BE ABLE TO UNDERSTAND THE FOLLOWING AT THE END
OF THIS LECTURE.

1. HOW SPERMATOZOA ARE PRODUCED (GAMETOGENESIS)
2. HOW OOCYTES ARE PRODUCED (OOGENESIS)
3. WHAT FERTILIZATION IS, ITS IMMEDIATE CONSEQUENCES
4. THE PROCESSES IN THE FIRST, SECOND, AND THIRD WEEKS OF
HUMAN DEVELOPMENT

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 GAMETOGENESIS IN THE MALE
(SPERMATOGENESIS)
GAMETES OR GERM CELLS IN MALES ARE SPERMATOZOA
(SING. SPERMATOZOON)
HENCE GAMETOGENESIS IN THE MALE IS KNOWN AS
SPERMATOGENESIS
SPERMATOGENESIS OCCURS IN THE TESTES AFTER PUBERTY
(12-14 YEARS)
UNDER INFLUENCE OF FOLLICLE-STIMULATING HORMONE
(FSH) AND TESTOSTERONE

A cartoon showing the hormonal
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influence on spermatogenesis
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 SPERMATOGENESIS
OPTIMUM AT 2-3OC BELOW BODY
TEMPERATURE (37OC)

REASON THE TESTES ARE IN SCROTUM BELOW THE
PELVIS (OUTSIDE ABDOMEN, UNLIKE OVARIES)

CONTINUOUS THROUGHOUT POST-PUBERTAL LIFE

PEAKS AT ABOUT AGE 25 YEARS
ABOUT 150,000 SPERMATOZOA PER TESTIS PER
DAY AT PEAK

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fkwakuaddai/MSPC 112/2024 -L2 04/06/2024 6
 SPERMATOGENESIS - SUMMARY
FROM SPERMATOGONIUM TO
PRIMARY SPERMATOCYTES TAKES
16 DAYS
FROM PRIMARY SPERMATOCYTES
TO SPERMATIDS TAKES 24 DAYS
FROM SPERMATIDS TO
SPERMATOZOA TAKES 24 DAYS
THE WHOLE PROCESS TAKES 64
DAYS

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 GAMETOGENESIS IN THE FEMALE (OOGENESIS)

GAMETES IN FEMALES ARE SECONDARY
OOCYTES (COMMONLY CALLED OVA; SING.
OVUM)
GAMETOGENESIS IN FEMALES IS KNOWN AS
OOGENESIS

OCCURS IN OVARIES AND COMMENCE BEFORE
BIRTH (5 MONTHS IN UTERO)

UNDER THE INFLUENCE OF FSH AND
LUTEINIZING HORMONE (LH)

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 OOGENESIS –COMMENCES BEFORE BIRTH

GAMETOGENESIS IN FEMALE IS PECULIARITIES OF OOGENESIS:
OOGENESIS BECAUSE IT COMMENCES –– STARTS BEFORE BIRTH (5TH MONTH IN UTERO)
WITH OOGONIA (SING. OOGONIUM)
–– SUSPENDED IN THE MIDDLE (BIRTH TO
PRIMORDIAL GERM CELLS (PGCS) PUBERTY)
CHANGE TO OOGONIA, PRIMARY –– RESTARTS AT PUBERTY (9–13 YEARS)
OOCYTES, AND SECONDARY OOCYTES (OR POST-PUBERTAL OOGENESIS IS TIED WITH THE
OVA) MENSTRUAL CYCLE
OCCURS IN OVARIAN CORTEX –– CONTINUES UP TO MENOPAUSE (45–55 YEARS)

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 OOGENESIS –THE EVENTS AFTER PUBERTY
FOR 14 DAYS AFTER EVERY MENSTRUAL CYCLE SOME
PRIMARY OOCYTES RESUME FIRST MEIOSIS

TYPICALLY, ONE PRIMARY OOCYTE COMPLETES THE FIRST
MEIOTIC DIVISION TO BECOME A SECONDARY OOCYTE
(OVUM)
UNDER THE INFLUENCE OF LH SURGE A MATURE OVARIAN
FOLLICLE RUPTURES TO DISCHARGE THE SECONDARY OOCYTE
(OVUM) FROM OVARY – PROCESS IS CALLED OVULATION
THE SECONDARY OOCYTE IS SUCKED INTO FALLOPIAN TUBE
SECOND MEIOTIC DIVISION IS COMPLETED ONLY AFTER IT HAS
BEEN FERTILIZED BY A SPERMATOZOON

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 FERTILIZATION – FUSION OF ONE MALE GAMETE
WITH ONE FEMALE GAMETE
REQUIREMENTS FOR IN VIVO
FEMALE OVULATION – SECONDARY
FERTILIZATION
OOCYTE (OVUM) MUST ENCOUNTER
SUCCESSFUL COITUSINCLUDING RELEASE COMPETENT SPERMATOZOON WITHIN 24
OF SEMEN INTO VAGINA HOURS OF RELEASE

ADEQUATE NUMBERS OF COMPETENT SECONDARY OOCYTE FREE FROM
STRUCTURAL AND CHROMOSOMAL
SPERMATOZOA
ABNORMALITIES
ABILITY OF SPERMATOZOA TO FEMALE GENITAL TRACT FREE FROM
OVERCOME OBSTACLES IN THE FEMALE INFECTIONS AND APPROPRIATELY PRIMED BY
GENITAL TRACT SEX HORMONES

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 SPERMATOZOON VS OVUM -SIZE

SPERMATOZOON IS VERY SMALL AND
CONTRIBUTES NO MORE THAN THE PATERNAL
CHROMOSOMES

OVUM IS LARGE AND SURROUNDED BY TWO
LAYERS

THERE IS A GELATINOUS INTERNAL LAYER
KNOWN AS ZONA PELLUCIDA SEPARATING THE
PLASMA MEMBRANE FROM

AN OUTER LAYER OF CORONA RADIATA CELLS

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 SUMMARY
GAMETOGENESIS COMPRISES SPERMATOGENESIS & OOGENESIS
SPERMATOGENESIS COMMENCES AT PUBERTY, OCCURS AT LOWER-THAN-
NORMAL BODY TEMPERATURE, DOES NOT STOP AFTER IT STARTS, AND
PRODUCES MILLIONS OF SPERMATOZOA

OOGENESIS IS SUSPENDED BETWEEN BIRTH AND PUBERTY, IT IS CYCLICAL,
AND PRODUCES A SINGLE OVUM PER CYCLE THAT SUPPLIES CYTOPLASM
FOR THE ZYGOTE

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 FERTILIZATION -OVERVIEW (1)
Interaction between ovum and
spermatozoa must result in one
spermatozoon penetrating the
oocyte resulting in fertilization
Ovulation must release a secondary
oocyte (ovum) that has completed
the first meiotic division
A cut-out diagram depicting pe ovulation,
necessary for human fertilization

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 FERTILIZATION -OVERVIEW (2)
Early human
development commences
with the formation of a
zygote –the end-product
of fertilization
The zygote undergoes a
series of unique mitotic
divisions called
CLEAVAGE
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 FERTILIZATION -OVERVIEW (3)
CLEAVAGE characterizes
the first week of human
development
CLEAVAGE produces
daughter cells called
blastomeres
Blastomeres for a ball of
cells that is transported
from the oviduct into the A cartoon depicting fertilization, and cleavage and transport from
cavity of the uterus the oviduct into the uterine cavity
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 FERTILIZATION-OVERVIEW (4)
The first 3-4 divisions do not involve the
production of new protoplasm
Cleavage starts with the 2-cell stage, then
the 4-cell stage, 8-cell stage, 16-cell stage,
etc.
The ball of blastomeres at the 16-cell is
called the MORULA

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 OBSTACLES THAT SPERMS ENCOUNTER IN THE FEMALE
GENITAL TRACT
1. Acidity of vaginal fluid (many spermatozoa die)
2. Viscosity and acidity of cervical mucus (weaken and
trap many spermatozoa, notably abnormal ones)
3. Distance from the vagina through uterine cervix and
cavity, to the ampulla of the oviduct
4. Ref.
https://doi.org/10.5935/MedicalExpress.2
015.02.07
5. Must survive 30 min to 12 hr swim and up to 72 hr
wait for ovum

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 FERTILIZATION REQUIRES A HEALTHY
SECONDARY OOCYTE (OVUM)
Devoid of structural abnormalities (which are
very rare)
Must have right number of chromosomes (22
autosomes + X)
Must have completed 1st meiotic division prior
to ovulation
Must encounter competent sperm within 24
hours of ovulation Primary oocyte surrounded by corona radiata
cells inside a mature follicle before ovulation

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 FERTILIZATION – MULTISTEP PROCESS
Occurs in three sequential events
1. Penetration of corona radiata
2. Penetration of the zona pellucida
3. Binding and Fusion of the oocyte
and sperm cell membranes
*Slow block to polyspermy or zonal reaction triggered by
release of cortical granules from oocyte

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 FERTILIZATION - MALE & FEMALE PRONUCLEI
The sperm head releases paternal
chromosomes into the oocyte to form the
male pronucleus
The secondary oocyte (ovum) completes the PB
second meiotic division and ejects the PN
PN
second polar body (containing 23
chromosomes but with very little cytoplasm)
The fertilized oocyte retains 23 maternal
chromosomes that form the female
pronucleus Fertilized oocyte showing 2 pronuclei
(PN) and the second polar body (PB)

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 IMMEDIATE EVENTS OF FERTILIZATION
1. Completion of second meiotic
division of oocyte; formation of
female pronucleus & expulsion of
secondary polar body
2. Formation of the zygote by fusion
of the male and female pronuclei

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 IMMEDIATE EVENTS OF FERTILIZATION
3. Determination of genetic sex of
the zygote (XX = female; XY = male) 5. Introduction of genetic
4. Restoration of the diploid variation (via cross-over &
independent assortment of chromosomes)
number of chromosomes
(23 + 23 = 46)
6. Initiation of cleavage of
zygote

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 CLEAVAGE
Occurs within oviducts
No growth between divisions and the
nuclear to cytoplasmic ratio decreases
about 1000-fold
Unusual cell cycles lacking or having very
short, G1 and G2 phases

A photomicrograph of two-cell
stage blastomeres
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 WEEK ONE POST-FERTILIZATION
Cleavage to implantation
Cleavage - Succession of rapid divisions
resulting in large number of smaller cells
(blastomeres)
No synthesis of new cytoplasm; thus,
fractionation of oversize single cell (zygote)
Blastomeres are enclosed within the zona
pellucida – otherwise monozygotic twining

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 THE HUMAN BLASTOCYST (DAYS 5-9 PF)
Formation begins about 5 days after
fertilization
A fluid-filled cavity appears in the morula,
the ball of 16 blastomeres
Transported via “ciliary escalator” in
oviduct to uterine cavity
Arrives in uterine cavity day 7-9 pf

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 IMPLANTATION
Process of attachment and invasion
of the endometrium of uterus by the
blastocyst (conceptus)
Requires blastocyst to hatch out of
the zona pellucida
Trophoblast (outer cell mass)
adheres to receptive endometrium
(in secretory phase)

A photomicrograph showing a hatching blastocyst

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 THE RECEPTIVE ENDOMETRIUM
Corpus luteum (CL) formed from the
ovarian follicle that discharged the
secondary oocyte at ovulation
CL under stimulation of LH produces
progesterone
Progesterone stimulates the endometrium
to change from proliferating to secretory
phase
Blastocyst hatching must coincide with
mid-secretory endometrium

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 SECOND WEEK OF DEVELOPMENT
1. Differentiation of cells during the
formation of the blastocyst:
Thus, as per the image shown;
a. Embryoblast (inner cell mass (1)
b. Fluid-filled (blastocyst) cavity
called blastocoel (2)
c. A single layer of outer cells that
surround the blastocoel called
trophoblast (3) Photomicrograph of a human blastocyst in a
petri dish taken at a Fertility Laboratory

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fkwakuaddai/MSPC 112/2024 -L2
 REVIEW -IMPLANTATION
The process by which the
blastocyst hatches out of the
zona pellucida; its
trophoblast adheres,
attaches, and burrows into
the endometrium where
further development
continues
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 THE SECOND WEEK OF HUMAN DEV’T

Called the week of twos
also because two cavities
develop in relation to the 1
two layers of the
embryoblast (The
2
bilaminar embryonic disc)

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Week 3 of human development
Characterized by replacement of
bilaminar embryonic disc
(epiblast and hypoblast) with a
trilaminar disc
Process of formation of
trilaminar embryonic disc is
called gastrulation
All cell layers of trilaminar disc
originate from epiblast via a
primitive streak

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 GASTRULATION - Summary
The Primitive Streak forms A Primitive node forms at cephalic
from Epiblast end of primitive streak.
One wave of Cells migrate to Cells of primitive node migrate
below surface to form Notochord
replace the hypoblast to form
Endoderm Epiblast cells that did not form part
of primitive streak or node, remain
A second wave of cells as surface ectoderm.
migrate to form a layer Thus, trilaminar embryonic disc results
beneath the epiblast to form from gastrulation, comprising:
Mesoderm Ectoderm
Mesoderm
Endoderm

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EMBRYONIC ORIGIN OF BASIC TISSUES

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GASTRULATION & THE FOUR BASIC TISSUES
1. Epithelia – arise from all the
primary germ layers; ectoderm,
mesoderm, and endoderm
2. Connective Tissues – arise
exclusively from mesoderm
3. Nerve Tissue – Arise exclusively
from ectoderm
4. Muscle Tissue – arise exclusively
from mesoderm

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THE END

HAVE A GREAT EVENING!

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