Gastrulation, Neurulation and Folding

GASTRULATION, NEURULATION AND FOLDING

Dr Rania Gabr

OBJECTIVESBy the end of this lecture , the student should be able to: Define Gastrulation Describe the formation of the primitive streak Describe the formation of the intraembryonic

mesoderm and the Trilaminar disc Explain the formation , function and fate of the

notochord Define Neurulation Describe the formation of the neural plate,

groove, fold , crest and canal Understand the process of folding its timing

and results

The Third WeekThe significant event of third week is

Gastrulation

Gastrulation: is the process of formation of the 3 germ layers (ectoderm, mesoderm & endoderm).

GASTRULATION The process by which the bilaminar disc

is converted into a trilaminar disc

It is the beginning of morphogenesis (formation of body form)

Consists of formation of the primitive streak, the three germ layers & the notochord

Embryo is referred to as a Gastrula

PRIMITIVE STREAK The primitive streak results

from proliferation of the epiblastic cells in the median plane, in the caudal half of the epiblast, and lies along the cranio-caudal axis.

Its cranial end forms the primitive node

A groove, primitive groove, appears in the primitive streak, which continues with a small depression, primitive pit, in the primitive node.

A circular thickening appears in the hypoblast near the cranial end, in the midline, to form the prechordal plate ( oropharyngeal membrane), that marks the future site of mouth

A circular thickening appears in the hypoblast caudal to primitive streak in the midline to form the cloacal membrane, the future site of the anus

FORMATION OF INTRAEMBRYONIC MESODERM

The epiblastic cells from the primitive streak (groove) proliferate to form mesenchymal tissue

The newly formed cells invaginate and migrate ventrally, laterally & cranially between the epiblast and hypoblast & organize to form the intraembryonic mesoderm

FORMATION OF INTRAEMBRYONIC MESODERM CONT’D

Intraembryonic mesoderm merges with the extra-embryonic mesoderm at the periphery of the embryonic disc

By the end of 3rd week, mesoderm lies between embryonic ectoderm and endoderm everywhere EXCEPT in the region of prechordal plate and cloacal membrane, as the embryonic ectoderm & endoderm are fused at these regions

TRILAMINAR EMBRYONIC DISC

FORMATION OF INTRAEMBRYONIC MESODERM CONT’D

Some mesenchymal cells displace the hypoblasts forming the embryonic endoderm

Cells remaining in the epiblast form the embryonic ectoderm

EACH OF THE THREE GERM LAYERS GIVES RISE TO SPECIFIC TISSUES AND ORGANS

Thus the EPIBLAST gives rise to all three germ layers, Ectoderm,

Mesoderm, Endoderm in the embryo

FATE OF PRIMITIVE STREAK Actively forms mesoderm until

the early part of 4th week

Then it starts regressing and becomes an insignificant structure in the sacrocooccygeal regions

Normally it degenerates and disappears by the end of 4th week

Remnants may persist and give rise to a large tumor called Sacrococcygeal Teratomas

NOTOCHORD

A rod of mesenchymal cells located cranially, in the midline, extending between the primitive node and the prechordal plate

FORMATION OF NOTOCHORD Mesenchymal cells

migrate cranially from the primitive pit towards the prechordal plate, and form a rod like notochordal process

The notochordal process becomes canalized forming a hollow tube, the notochordal canal, communicating with the primitive pit.

FORMATION OF NOTOCHORD CONT’D The floor of the tube

and the underlying endoderm break down, forming a notochordal plate

The notochordal plate becomes continuous with the endodermal layer.

FORMATION OF NOTOCHORD CONT’D

A temporary communication is established between the amniotic cavity and the yolk sac, termed the neurenteric canal.

NOTOCHORDAL PLATE FOLDS TO FORM THE NOTOCHORD.

FUNCTIONS OF NOTOCHORDDefines primordial axis of the embryoProvides rigidity to the embryoServes as a basis for the development of

the axial skeleton Indicates the future site of the vertebral

bodies/column Regulates differentiation of surrounding

structures including the overlying ectoderm (neural plate) and mesoderm (somites).

FATE OF NOTOCHORD Degenerates and

disappears as the bodies of the vertebrae develop, but it persists as the nucleus pulposus of each intervertebral disc

Remnants of notochordal tissue give rise to tumors called Chordomas

ECTODERMAL DERIVATIVESTHE NEURULATION

It is the process by which the neural tube is formed. The stages of neurulation include the formation of:

Neural plateNeural groove Neural folds & their fusionNeural crest cellsNeural tube

Begins during early part of the 4th week (22-23 days)

Ends by the end of 4th week (27 days) Is induced by the notochord

THE NEURULATION Under the

inducing effect of the developing notochord, the overlying ectodermal cells thickens to form the neural plate

The neural plate first appears:

Cranial to the primitive node and

Dorsal to the developing notochord & the mesoderm adjacent to it

As the notochord forms & elongates:

The embryonic disc elongates and becomes club-shaped

The neural plate broadens and extends cranially as far as the buccopharyngeal membrane, and later on grows beyond it

On 18th day: the neural plate invaginates to form neural groove & neural folds

Neural fold

Some neuroectodermal cells along the crest of the neural fold differentiate as the neural crest cells.

Neural crest cells

Neural fold

By the end of 3rd week, the neural folds move to the midline and fuse to form the neural tube

The fusion begins in the future cervical region and then extends both in cranial and caudal direction

The neural tube separates from the surface ectoderm, lies in the midline, dorsal to the notochord

Neural tube is open at both ends, communicating freely with the amniotic cavity.

The cranial opening, the rostral neuropore closes at about 25th day & the caudal neuropore closes at about the 27th day

The cranial ⅓ of the neural tube represent the future brain

The caudal ⅔ represents the future spinal cord

FOLDING OF EMBRYO- Folding means

conversion of the flat trilaminar embryonic disc into a cylindrical embryo.

 Time: Folding of the embryo begins by the end of the 3rd week. It is completed by the 4th week.

Folding of the embryo is due to rapid growth of the embryo specially the nervous system.

The head folds first

then the tail . At the same time, side to side folding occurs.

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