Mechanisms of Disease During Embryogenesis Flashcards

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1
Q

In human development, what are the 2 main periods?

A

Two main periods: Embryonic period: Up to the end of week 8 Most of the organogenesis occurs in these first 8 weeks Fetal period: The remaining time in utero Involves growth and modelling Defects during embryogenesis result in congenital malformations

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2
Q

What are the overall stages an egg goes through to develop into an adult?

A

From egg… fertilisation cleavage gastrulation neurulation and somitogenesis organogenesis …to adult

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3
Q

Annotated image of a fertilised zygote 1

A
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4
Q

Annotated image of a fertilised zygote 2 (more detail)

A
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5
Q

Where does fertilisation occur?

A

In the fallopian duct, (ampullary region)

See image for more detail throughout

Before the development of the embryo proper, the conceptus must first implant, then generate the “germ” disc. This takes ~10 days.

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6
Q

What is the process of cleavage?

Cleavage stages part 1

A

Cleavage- splitting (the zygote) without growth so must happen Quick

The 2 cell zygote divides into 4 cell zygote etc and then once it reaches 8-16 cells, it is called a morula.

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7
Q

Cleavage stages part 2

A

Once the zygote has divided into 8-16 cells, it is known as a MORULA (usually day 3). It is ready to undergo its first reorganisation - called COMPACTION. During compaction, cells in the embryo sort themselves (some remain in the exterior of the embryo and some go to the interior).

The cells inside the embryo are apolar-all their sites are in contact with other sites; they don’t have any surface that is free.

The cells on the outside give rise to the TROPHECTODERM and the cells on the outside give rise to the inner cell mass.

The outside cells start pumping fluid to the inside which leads to the formation of a fluid filled cavity inside the embryo called the BLASTOCOELE.

The Blastocoele pushes the inner cell mass towards one side and gives an asymmetry to the embryo. Now it is called a BLASTOCYST.

Once it has divided into 32-64 cells, it is known as a blastocyst (usually day 4/5).

The blastocyst by now has reached the uterus and is ready to implant in the uterine wall.

The inner cell mass gives rise to 2 types of cells:

cells on the edge(dark purple in a line in the image) between the inner cell mass and blastocoele and the group of inner cells that do not come into contact with the blastocoele. This gives rise to the HYPOBLAST and the EPIBLAST.

So now you can identify the bilaminar germ disc.

Epiblast-coming from inner cell mass and hypoblast on the outer (dark purple), epiblast seen on next slide as beige.

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8
Q

Cleavage Stages part 3

A

The EPIBLAST cells arrange themselves so that they give rise to another cavity which will become the amniotic cavity.

The embryo is now ready to undergo the second main reorganisation- GASTRULATION.

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9
Q

What is gastrulation?

What occurs in the Gastrulation stage?

A

Gastrulation is the process where the bilaminar embryonic disc (consisting of the hypoblast and epiblast) undergoes reorganisation to form a trilaminar disc. (3 primary germ layers)

Gastrulation leads to the formation of 3 layers of cells (from 2 layers).

Cells in the epipblast through a primitive groove will displace cells in the hypoblast, forming the mesoderm and endoderm,

(Hypoblast (primitive endoderm) is displaced by involuting cells that become definitive endoderm, and mesoderm)- words from the slide so likely more correct.

Then gives rise to ECTODERM. So now there are all 3 layers and ready for NEURULATION.

Summary from video of Gastrulation:

  • The first cells to invaginate through the primitive groove form the definitive endoderm (the endoderm is responsible for the formation of the GI tract
  • The remaining cells of the epiblast are called the ectoderm
  • Cells that remain in the space between the definitive endoderm and definitive ectoderm form a layer called the mesoderm.
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10
Q

What occurs in neurulation?

A

The notochordal process is source of neural inducers.

The primitive streak moves up and then comes back down, laying down the notochord for formation.

NOTOCHORD- rod of cells which secrete various extracellular molecules that will instruct the ectoderm to become neural tissue and neural plate is established.

As the primitive streak regresses, the notochord is extended posteriorly and instructs neural plate formation (now at 21 days).

Neural folds then meet and fuse to create a neural tube

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11
Q

Neurulation First steps overview slide

A
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12
Q

Neurulation part 2 (what happens days 20-22?)

A

Cell reorganisation also occurs too here.

Mesodermal cells start to become segmented in tissue blocks called SOMITES. (precursors of bones and muscles)

Neurulation is concomitant with other form-shaping (morphogenetic) processes, particularly gut formation and body folding (“silk purse” model).

Folding leads to the formation of the umbilical cord.

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13
Q

What occurs in Organogenesis?

A

•Differentiation of somitic derivatives

–bones, muscles, tendons

•Development of sensory organs

–ears, eyes, olfactory pits

•Limb formation

–forelimbs first, hindlimbs next

–establishment of pattern in the limbs: proximodistal, anterior-posterior, dorsal-ventral

•Formation of face structures

–jaws, nose, tongue, palate

•Formation of genital structures

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14
Q

Classification of causes of disease(?)

A

Single gene mutations: refers to the cases when mutation in one particular gene will be enough to display a characteristic defect.

Chromosomal anomalies: in some cases, rather than single mutations, whole chromosomal rearrangements are responsible for a disease. The most obvious examples are chromosomal trisomies, such as trisomy of chromosome 21, leading to Down syndrome.

Polygenic disorders: refers to cases where it is not just one gene affected, but several different genes simultaneously affected, what causes the disease.

Environmental factors: refers to the deleterious influence of the environment on a particular process. These can be very diverse: diet, infection, toxic compounds.

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15
Q

Summary of the above lecture

A

Human embryonic development is a very complex process, controlled by networks of genes acting together.

Defects in gene function during this process will result in defective embryonic development.

Some genes are needed at several different stages of embryonic development, or in several organs. Alterations in the function of such genes will result in complex phenotypes in a variety of tissues. These are called syndromic diseases.

Embryonic development can also be perturbed by environmental insults, maternal diet deficiencies or infections during pregnancies.

Often, it is a combination of genetic and environmental causes what results in congenital disease.

Identifying the relative contribution of these factors is a challenging and often very difficult process.

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