26 - Limb Development

Question 1

What are the basic components of the adult limb?

Answer 1

Skeletal elements, skeletal muscles, fibrous connective tissue separating the compartments, neurovascular structures, and skin.

The limbs have proximal, intermediate, and distal segments.

Question 2

What are the limb precursor tissues?

Answer 2

Limb Mesenchyme: somatic mesoderm

Surface Ectoderm (surrounds somatic mesoderm)

Question 3

What are the general characteristics of limb development?

Answer 3

It’s a multi-step manner, steps blend into one another to form a continuum of development.

Appearance, patterning, and differentiation occur simultaneously but in subsequent segments.

Upper limb is ahead of lower limb by about 1-2 days.

Question 4

What is step 1 of limb development?

Answer 4

Establishment of limb field:

• bilateral areas of somatic mesoderm
• Induced by gene expression

Question 5

What is step 2 of limb development? What structure forms?

Answer 5

Budding (appearance): upper limb on says 26/27, lower on 28/29

• located at specific axial levels
• Inherent property of mesoderm

Apical Ectodermal Ridge (AER): ectodermal thickening at the dorsal/ventral surface interface. This is important for signaling.

Question 6

What is the third step in limb development during weeks 5-9? What is this a result of?

Answer 6

Elongation of the limb: segments appear along a proximal-distal axis.

• Results from epithelial-mesenchyme interactions at AER/mesoderm interface.

Question 7

What is the 4th step of limb development?

Answer 7

Tissue formation and organization (begins at week 5)

• Differentiation occurs in the proximal-distal direction
• Somatic mesoderm condenses to form cartilage that’s eventually replaced by bone.
• Somite derived from myoblast migrate into limb to form skeletal muscles
• Nerves and vascular precursors migrate into limb

Question 8

Limb development occurs simultaneously along what three axes?

Answer 8

1. Proximal-Distal: elongation, segment formation
2. Anterior-Posterior: cranial-audal/preaxial-postaxial borders; digit development
3. Dorsal-Ventral: compartments - muscles and neurovascular structures

Question 9

Describe the interaction between the AER and the mesencyme during limb development?

Answer 9

Mesenchyme: induces AER (Fgf10), sustains AER, and determines limb type (upper or lower)

AER: maintains prolif. pool of mesenchyme cells for linear growth (Fgf8), paintains A-P axis signaling center (ZPA), and interacts with P-D and A-P specific proteins to provide mesenchyme cells with positional information.

Question 10

What signaling molecules are released by the prosimal limb? What about the distal limb?

Answer 10

Proximal: retinoic acid

Distal: Fgf and Wnt

Question 11

What is the fate of the mesenchyme adjacent to the AER in the limb bud?

Answer 11

It forms segment-specific skeletal elements and fibrous CT.

Question 12

What happens if the AER is removed? What about if it’s duplicated?

Answer 12

Limb truncation: amelia (lack of limb) or micromelia (partial limb development).

Duplication of AER causes segment duplication.

Question 13

How common are limb malformations?

Answer 13

Affect 2/1000 births.

Can be mild-severe.

Question 14

What results from a transverse failure of formation of parts?

Answer 14

Amputation along the proximal-distal axis.

Question 15

What develops along the anterior-posterior axis?

Answer 15

The digits.

Preaxial and postaxial borders form along this axis; thumb and big toe are preaxial.

Question 16

What signaling center (other than AER) controls anterior-posterior patterning? What are the mediators involved in anterior-posterior patterning?

Answer 16

Zone of Polarizing Activity (ZPA) - located along the posterior border of the limb.

• Sonic hedge hog (Shh)
• Retinoic acid has same effect

Question 17

____ gene combinatorial expression controls digit formation.

Answer 17

Hox gene.

An additional ZPA like signal (Shh, Retinoic acid) can set up a secondary focus on Hox gene expression.

Question 18

What can result from a longitudinal failure of formation of parts? What are some examples of what can occur?

Answer 18

Amputation along the anterior-posterior axis.

Along the preaxial or postaxial border, or median plane.

Absence of radius, oligodactyly of lobster.

Question 19

What is this an image of?

Answer 19

Fibular hemimelia - missing fibula

Question 20

What is the associated deformity and what could have caused it?

Answer 20

Phocomelia - means “seal-like”

Thalidomide can cause this.

Question 21

What role does apoptosis play in development?

Answer 21

Separation of digits, absence of distal phalanx of large digit.

Question 22

What can result from a failure of differentiation (of parts) during limb development?

Answer 22

Syndactyly: digits stuck together

Sirenomelia: mermaid looking caudal end with no feet or definite structures

Triphalangeal Thumb: three digits on your thumb

Question 23

What influences development along the dorsal-ventral axis of the limb?

Answer 23

• Skeletal muscles: myoblasts organize into dorsal and ventral premuscle masses
• Neural and vascular structures
• Limb compartmentalizaton

Question 24

What are the madiators of dorsal-ventral patterning?

Answer 24

Secreted factors like Wnt 7a and TF engrailed (En)

Question 25

What are the characteristics of developmental dysplasia (congenital dislocation) of the hip?

Answer 25

Increase in females; feature of several synromes.

Under development of the femoral head or hip socket and general joint laxity can occur.

Question 26

What is a sprengel deformity?

Answer 26

Malposition and dysplasia of the scapula.

Question 27

What disorder is associated with abnormal development of the limb girdles?

Answer 27

Cleigocranial dysplasia - phenotype similar to RunX2 (CBFA1) but heterozygotes

No clavicle in pt

Question 28

What are the three limb precursor tissues?

Answer 28

1. Surface ectoderm
2. Somatic mesoderm
3. Somitic mesoderm

Question 29

What is the critical period for limb development?

Answer 29

The 4th to 9th week.

Question 30

_____ and ____ are the two important signaling centers for limb development.

Answer 30

AER and ZPA