Introduction to Embryology

Question 1

Define embryology

Answer 1

Study of formation and development of embryo and fetus

Question 2

Define embryo

Answer 2

• Organism in process of development
• From 2nd to 8th week after fertilisation

Question 3

Define fetus

Answer 3

• Developmental period from week 9 post-conception

Question 4

Define embryogenesis

Answer 4

Progression from a single cell by establishing organ primordia

Question 5

Why is embryology important?

Answer 5

• Prenatal diagnosis
• Preventing birth defects
• Fertility assistance

Question 6

What has human genome sequencing allowed scientists to do while studying embryology?

Answer 6

• Cell lineage tracing
• Roles of individual genes and environmental factors in development

Question 7

What are the three steps of Week 1?

Answer 7

OVULATION
FERTILISATION
MITOSIS AND IMPLANTATION

Question 8

Describe ovulation in Week 1. PART 1

Answer 8

• Increased production of LH and FSH from anterior pituitary - follicle maturation
• Graafian folic matures - oocyte completes Meiosis I and initiates Meiosis II
• LH causes contraction. Ovarian wall ruptures - oocyte released.

Question 9

Describe ovulation in Week 1. PART 2

Answer 9

• Fimbriae pass oocyte into fallopian tube which contracts (along with mucosal cilia) moving oocyte towards the uterus
• At site of rupture, corpus luteum forms - secretes progesterone.
• Uterus prepared for pregnancy

Question 10

Describe fertilisation in Week 1.

Answer 10

• Occurs in ampulla of fallopian tube
• Penetration of corona radiata and then zone pellucida
• Fusion of sperm and oocyte membranes
• Zygote forms

Question 11

What occurs during cleavage?

Answer 11

• Rapid cell division following fertilisation
• Day 1: Single cell zygote
• Day 2: Two cell stage
• Days 3-4: Eight cell stage (early morula)
• By Day 4: 16-cell stage (late morula). Zone pellucida disappears

Question 12

What is each cell formed during cleavage known as?

Answer 12

Blastomere

Question 13

By day 4, morula cells separate into 2 cell masses. What are these masses called and what is the consequence of their formation?

Answer 13

• EMBRYOBLAST - Inner mass
• TROPHOBLAST - Outer mass
• Blastocele forms and embryo now a blastocyst

Question 14

What is the embryoblast and what happens to it during development?

Answer 14

• Future embryo
• Different into epiblast, hypoblast and AVE and organise themselves

Question 15

What is the trophoblast and what happens to it during development?

Answer 15

• Future placenta
• Invaginate into endometrium of uterus

Question 16

What is Week 2 of development characterised by?

Answer 16

• Bilaminar disc formation
• Cell differentiation

Question 17

What occurs in the trophoblasts during cell differentiation in Week 2?

Answer 17

• Differentiate into cyto/syncytiotrophoblasts
• Holes (trophoblastic lacunae) form

Question 18

What occurs in the embryoblasts during Week 2?

Answer 18

• Epiblast cell mass separates to form amniotic cavity
• Hypoblast cells extend to form exocoelomic membrane which surrounds exocoelomic cavity (primitive yolk sac)

Question 19

What has happened by the end of Week 2 (Day 13)? PART 1

Answer 19

• Presence of extra embryonic cavity separating trophoblasts and embryo
• Primary yolk sac becomes secondary yolk sac
• Bilaminar sac forms

Question 20

What has happened by the end of Week 2 (Day 13)? PART 2

Answer 20

• Amniotic cavity is present and a primitive placenta exists

Question 21

What occurs in Week 3 of development?

Answer 21

• Gastrulation
• Epiblasts become ectoderm
• Epiblasts that invaginate through primitive streak form the mesoderm
• Hypoblast cells become endoderm
• Cephalo-caudal and left-right axes established

Question 22

What occurs during Weeks 4-8 of development?

Answer 22

• Endoderm differentiates to form tubes e.g airways, the gut
• Mesoderm differentiates to form connective tissue, muscle and blood vessels
• Ectoderm forms skin, neural tissue

Question 23

What occurs from Week 9 to birth (the fetal period)?

Answer 23

• Organ maturation
• Placental development
• Increase in weight (particuarly in last 2 months) and length( particularly 3rd-5th month)
• Slowdown in head growth
• Full term 40 weeks after onset of last menstruation (38 weeks from
  conception)

Question 24

How can genomes influence embryonic development?

Answer 24

• Genes transcribed to form proteins which can regulate gene expression
• Proteins can also acts as signalling molecules

Question 25

What is induction?

Answer 25

• Group of cells and tissues causes change in activity of another group of cells/tissues

Question 26

What does induction depend on?

Answer 26

• The competence of cells to respond to induction usually through cell signalling

Question 27

Describe the Sonic Hedgehog Pathway.

Answer 27

• Responsible for vasculature and neural development
• Left-right axis formation

Question 28

In detail, what occurs in the Sonic Hedgehog Pathway.

Answer 28

• SHH proteins binds to Patched (Ptc) protein receptor
• Binding stops Ptc inhibited of smoothened proteins
• Once activated, these proteins up regulate the GLI transcription factors which regulate expression of target genes

Question 29

What is the Notch pathway needed for?

Answer 29

• Apoptosis
• Cell proliferation
• CVS and neural system development

Question 30

In detail, describe the Notch pathway. PART 1

Answer 30

• Notch transmembrane receptors bind to DSL ligands
• Binding cleaves off the Notch intracellular domain (NICD)

Question 31

In detail, describe the Notch pathway. PART 1

Answer 31

• NICD enters nucleus and binds to DNA binding protein inhibiting transcription of Notch target genes
• Binding of Notch removes inhibition so target genes can be transcribed.

Question 32

Describe the the planar cell polarity pathway.

Answer 32

• Controls cell reorganisation within tissues
• Causes convergent extension - tissues become longer and narrower

Question 33

In detail, outline what happens in the PCP pathway.

Answer 33

• Wnt proteins bind to Frizzles receptor.
• Wnt, along with CELSR and VANGL transmembrane proteins activate DVL protein
• DVL regulates kinase signalling causing cytoskeletal changes.

Question 34

What are the consequences of abnormal PCP pathways?

Answer 34

• Neural tube defects
• Congenital heart disease