Langman's Medical Embryology

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2 Langman's Medical Embryology

3 Developmental Biology

4 Differentiation Morphogenesis)

5 Epigenetic landscape (Waddington) ips

6 Langman's Medical Embryology

8 Morphogen gradient FGF8 in mouse limb bud Gilbert "Developmental Biology" SHH in chick neural tube

9 FGF (Fibroblast growth factor) BMP (Bone Morphogenetic Protein) Shh (Sonic Hedgehog) Wnt

10 Langman's Medical Embryology

12 Gilbert "Developmental Biology"

14 ( B.C.) "Views of a Fetus in the Womb"

15 Ernst Haeckel ( ) >

16 ( ) ( )

Eric Wiechaus Nobel Prize, 1995 Figure 2.

The size and spacing of the pattern deletions in mutant

to requirements for gene activities at blastoderm stage.

mutations in gap genes show large contiguous deletions in

deletions spaced at double segment intervals, and mutations

17 Eric Wiechaus Nobel Prize, 1995 Figure 2. Phenotypes of Mutations affecting segmental pattern. The size and spacing of the pattern deletions in mutant embryos at the end of development allows extrapolation back to requirements for gene activities at blastoderm stage. Segmentation genes can be grouped into threi: classes: mutations in gap genes show large contiguous deletions in the pattern, mutations in pair-rule genes show pattern deletions spaced at double segment intervals, and mutations in segment polarity genes cause pattern deletions in each segment. One example is shown for each class.

18 "Developmental Biology" FGF10 FGF10 KO Review Development 124, (1997) Nat Gen. 21, 138- (1999) Dev Dyn 219: (2000)

19 Development 133,

21 u = f(u)+d u

22 Computational - Mathematical

23 : ~100 : 1-3

25 Langman s medical embryology

26 Langman s medical embryology

27 Epithelium - interface Mesenchyme -inside

28 0 h 48 h

30 Dev Dyn 219: (2000) Development 133,

32 1.0 unit/ml dispase, 15 min. +FGF Isolate lung epithelium Dissection 50% Matrigel solution in DMEM/F o C, 30 min. Gel flattened by the addition of culture medium Culture for 48 hrs Ito & Nogawa, Development 121(4) (1995)

34 FGF 10 ng/ml FGF1 100 ng/ml FGF1 Development 121(4) (1995)

35 Control 2 µg/ml collagenase I

36 FGF Development 124(23) (1997)

37 Cell 96, (1999)

38 A. predetermined B: dynamically determined

39 Number of buds Near Far

43 Mimura et al., Physica A 249, 517- (1998)

45 FGF = =

46 FGF c(x, y, t) FGF n(x, y, t) FGF FGF

47 c(x, y, t + 1) c(x, y, t) = pf(c(x, y, t), n(x, y, t)) + d 1 J(c) n(x, y, t + 1) n(x, y, t) = f(c(x, y, t), n(x, y, t)) + d 2 (c) (n) = n(x + 1, y, t) + n(x 1, y, t) + n(x, y + 1, t) + n(x, y 1, t) 4n(x, y, t) J(c) = (Φ(c c 0 )) Φ(x) = { 0 (x < 0) x (x 0)

48 f(c, n) = 5cn 1 + 3n, p = 1.0 d 1 = 4.0, d 2 = 1.7 n 0 = 0.5, c 0 = 1.0

49 Slight protrusion Growth Higher FGF concentration

50 FGF FGF distribution in numerical simulation Cy3-labeled FGF1 FGF1 immunohistochemistry

51 Simulation Experiment Low FGF High FGF

52 FGF 500 ng/ml FGF1 100 ng/ml FGF1

53 Experiment Simulation FGF-Cy3 beads Control d2=1.7 Collagenase(+) d2=4.0

54 a b fgf10 shh bmp4 shh, bmp4 Mesenchyme Epithelium fgf10 Expression control Morphological change Dev Cell 18, 8- (2010) Curr Top Dev Biol, 81, (2008)

58 Pericranium

60 Crouzon syndrome - FGFR GOF mutation Child s Nerv Syst (2000) 16:

61 J Biomechanics 23(4) (1990)

62 J. Morphol (1985)

63 Eden Prof S. Miyajima, FORMA 19, (2004)

65 FGF2, FGF18, FGFR1-4 BMP4, Noggin, TGF beta 1,2,3 Osteopontin, Osterix Twist, Msx2, Alx4, Runx2, Foxc1 Dev Dyn 233: , 2005

66 PRL 72(15) (1994)

68 Localization Differentiation Promote Inhibit Bone Runx2, Osterix - Mesenchyme FGF2, FGF18, BMP4 Noggin, Twist

69 Stabilizing factors Substrate molecules Localization Differentiation Promote Inhibit Bone Runx2, Osterix - Mesenchyme FGF2, FGF18, BMP4 Noggin, Twist

70 u: + v: (osteocyte, u>0) mesenchyme, u<0

71 u = u u 3 + a 1 v + a 0 + u v = a 2 u a 3 v + d v

76 + Physica D 34, 115- (1989)

77 4 days 7 days

78 3W mouse skull TRAP stain Posterior frontal suture Coronal suture Sagittal suture

81 a0 u v a 0 = 0.05 t = 0 a 0 = 0.1 a 0 = 0.2 t = 1000

82 Human Mouse Superficial Deep

83 Surface Deep FGF2 FGF18

84 a0 Wt FGFR2c GOF Het

85 Human lambda suture

86 ...

89 u = u u 3 + a 1 v + a 0 + h(t) u v = ɛ( u v)+h(t)δ v h(t): Exponential decreasing function with t

92 Koch Time Spatial scale

93 Summary II 2 FGF

94 Coda.

95 J. Murray "Mathematical Biology"

96 Well, the stripes are easy but what about the horse part? F. Crick, 1972

97 Horse part

98 5/2

10/15/09. Tetrapod Limb Development & Pattern Formation. Developing limb region is an example of a morphogenetic field

10/15/09. Tetrapod Limb Development & Pattern Formation. Developing limb region is an example of a morphogenetic field Tetrapod Limb Development & Pattern Formation Figure 16.5(1) Limb Bud Formation derived from lateral plate (somatic) & paraxial (myotome) Fig. 16.2 Prospective Forelimb Field of Salamander Ambystoma maculatum