Presentation is loading. Please wait.

Presentation is loading. Please wait.

Neuroinduction Diffusible morphogen. Neural plate (Apposition of Different Germbands) Ant Post Endoderm and Mesoderm Involute with Gastrulation: Induction.

Published byBrett Nash Modified over 9 years ago

Similar presentations

Presentation on theme: "Neuroinduction Diffusible morphogen. Neural plate (Apposition of Different Germbands) Ant Post Endoderm and Mesoderm Involute with Gastrulation: Induction."— Presentation transcript:

1 Neuroinduction Diffusible morphogen

2 Neural plate (Apposition of Different Germbands) Ant Post Endoderm and Mesoderm Involute with Gastrulation: Induction of the Neural Plate from Neuroectoderm, by the Underlying, Closely Apposed Mesoderm.

3 Hilde Mangold and Hans Spemann Key experiments performed in 1924 at the University of Freiburg, Germany. Hilde Mangold was a 26 year old graduate student. She died tragically in an accidental heater explosion. Hans Spemann was awarded the Nobel Prize in 1935.

4 Hilde Mangold and Hans Spemann Experiments (1924). B) The “organizer” is sufficient to induce a second nervous system. A) Mangold-Spemann Organizer

5 Explant Experiments with Animal Caps from Amphibian Blastula. (Nieuwkoop, 1969; Grunz and Tacke, 1989; Godsave and Slack, 1991)

6 + Candidate Neuroinducing Factors Isolating Inducing Factors that Promote Neuronal Differentiation. ?

7 Models for Neural Induction Presumptive Neuroectoderm Epidermis Neurons +”Epidermal factor” +”Neuronal factor” Model 1: Presumptive Neuroectoderm Epidermis Neurons +”Neuronal factor” (“default”) Model 2: Presumptive Neuroectoderm Epidermis Neurons +”Epidermal factor” (“default”) Model 3:

8 TGF-  Proteins Signal Through Heterodimeric Receptors and Smad Transcription Factors. (activin)

9 A Dominant-Negative Receptor Subunit Blocks Activation of the Signaling Pathway. (Hemmati-Brivanlou and Melton, 1992) Dominant-Negative (i.e. poison) Type II Receptor Subunit

10 Blocking TGF-  Signaling by Expression of a Dominant-Negative Receptor Causes Isolated Neuroectoderm to Become Neuronal. TGF-  Signaling is required to promote epidermal fate and inhibit neuronal fate. Epidermal Cells (+TGF-  Signaling) Neuronal Cells (-TGF-  Signaling) TGF-  Signaling Blocked by Expression of Dominant-Negative Receptor Subunit

11 BMP-4 / TGF-  Signaling Results in “Neural Epidermal Induction”. TGF-  Transforming Growth Factor -  BMP-4  Bone Morphogenic Protein - 4

12 Models for Neural Induction Presumptive Neuroectoderm Epidermis Neurons +”Epidermal factor” +”Neuronal factor” Model 1: Presumptive Neuroectoderm Epidermis Neurons +”Neuronal factor” (“default”) Model 2: Presumptive Neuroectoderm Epidermis Neurons +”Epidermal factor” (“default”) Model 3: (+BMP-4) (-BMP-4)

13 BMP-4 (Secreted by Neuroectodermal Cells) Inhibits Neuronal Fate and Promotes Epidermal Fate. Dissociation dilutes BMP-4 activity.

14 Recombinant BMP-4 promotes epidermal fate and inhibits neuronal fate. BMP-4 mRNA is expressed in presumptive ectoderm. (Fainsod, et al., 1995) NCAM (neuronal marker) (Wilson and Hemmati-Brivanlou, 1995) Intact caps Dispersed caps Keratin (epidermal marker)

15 Are there native anatgonists of BMP-4? Secreted from underlying mesoderm? Yes… chordin / noggin / follistatin.

16 +Noggin injection 1pg 10pg 100pg Chordin expresses in mesoderm Noggin cRNA injections rescue ventralized embryos. (Sasai, et al., 1995) (Smith and Harland, 1992)

17 * *

18 Functional Expression Cloning Yields noggin, a BMP-4 anatagonist. (1992) (Smith and Harland, 1992) noggin neuralization Spemann Organizer Fractionated cDNA Library (Inject Pools of cRNAs) *

19 Chordin / noggin / follistatin anatagonize BMP-4 activity by directly binding and inactivating BMP-4. (Zimmerman, Jesus- Escoba and Harland, 1996) BMP-4 noggin coupled to beads Mix Wash unbound BMP-4 (keep beads) Separate on gel ? BMP-4 +

20 Crystal Structure of Noggin-BMP Complex Confirms Biochemical and Functional Studies noggin BMP-7 Receptor (Type-II) Receptor (Type-I) (Groppe, et al., 2002)

21

22 TGF-  Proteins Signal Through Heterodimeric Receptors and Smad Transcription Factors. TGF-  antagonists

23 The Mechanism for Neural Induction is Evolutionarily Conserved between Vertebrates and Invertebrates. Ligand Receptor Antagonist Transcription Factor BMP-4 Type I Type II Type III noggin chordin follistatin Smad1 Smad2 Smad3 Smad4 Smad5 Vertebrates decapentaplegic (dpp) punt thick veins (tkv), saxophone (sax) Short-gastrulation (sog) Mothers against decapentaplegic (MAD) Medea Drosophila

24 BMP-4 is a member of the large evolutionarily conserved TGF-  gene family, which mediates many tissue inductive events. (Left/Right Symmetry) (heart, KO is lethal) (KO is lethal) (brain) (KO with eye defects) (dorsal neural tube) (kidney and urinary system) (bone)

25 Neurogenesis: Inductive Mechanisms. 1. Neuroectodermal cells choose either a neuronal or epidermal cell fate. 2. Interactions between mesoderm and neuroectoderm induce neuroectoderm to adopt the neural fate. 3. Induction acts through signaling by a secreted protein, Bone Morphogenic Protein-4 (BMP-4), made by neuroectodermal cells. 4. BMP-4 inhibits neuralization and promotes the epidermal fate in neighboring cells. 5. Mesodermal cells secrete proteins (Chordin, Noggin, Follistatin) which directly bind and antagonizes BMP-4 activity. 6. Neuroectodermal cells become neurons by suppression of BMP-4 activity by secreted proteins from underlying mesodermal cells. 7. The “default” state of neuroectodermal cells is neuronal. 8. This inductive mechanism is conserved between vertebrates and invertebrates. 9. BMP-4 is a member of the Transforming Growth Factor (TGF-  ) family of signaling molecules. Similar signaling events maybe locally re-employed later in the developing nervous system.

Download ppt "Neuroinduction Diffusible morphogen. Neural plate (Apposition of Different Germbands) Ant Post Endoderm and Mesoderm Involute with Gastrulation: Induction."

Similar presentations

Cell identity and positional information. How does a neuron find its target?

Cell identity and positional information. How does a neuron find its target?
GROWTH FACTOR SIGNALING, HOX GENES AND THE BODY PLAN

GROWTH FACTOR SIGNALING, HOX GENES AND THE BODY PLAN
NEURULATION & INDUCTION. Neural plate stage

NEURULATION & INDUCTION. Neural plate stage
Development of the nervous system - I

Development of the nervous system - I
“It is not birth, marriage or death, but gastrulation which is truly the most important time in your life.” Lewis Wolpert.

“It is not birth, marriage or death, but gastrulation which is truly the most important time in your life.” Lewis Wolpert.
Cell Differentiation: Cell interactions in Development

Cell Differentiation: Cell interactions in Development
Current Model for how cells become neural 1)Default state is neural 2)Local secretion of BMPs by epidermis inhibits neural fate 3)Local secretion of noggin,

Current Model for how cells become neural 1)Default state is neural 2)Local secretion of BMPs by epidermis inhibits neural fate 3)Local secretion of noggin,
Signal Integration During Development Dan Weinstein.

Signal Integration During Development Dan Weinstein.
Neuroinduction Diffusible morphogen.

Neuroinduction Diffusible morphogen.
Embryonic Induction Induction is the process by which one group of cells produces a signal that determines the fate of a second group of cells. This implies.

Embryonic Induction Induction is the process by which one group of cells produces a signal that determines the fate of a second group of cells. This implies.
Neural induction Model organism: Xenopus. Late blastula neurula.

Neural induction Model organism: Xenopus. Late blastula neurula.
Axis Formation and Gastrulation II

Axis Formation and Gastrulation II
Axis determination and early development in amphibians

Axis determination and early development in amphibians
Early Vertebrate Development Axis Determination Amphibian Early Development: Frog Fish Early Development: Zebra Fish.

Early Vertebrate Development Axis Determination Amphibian Early Development: Frog Fish Early Development: Zebra Fish.
Cell-Cell Signaling Inductive Interactions. Induction: proximate interactions Close range interactions Inducer –Tissue doing the inducing –Emits a signal.

Cell-Cell Signaling Inductive Interactions. Induction: proximate interactions Close range interactions Inducer –Tissue doing the inducing –Emits a signal.
Chapter 12- CNS and epidermis

Chapter 12- CNS and epidermis
The TGFß Superfamily A Tale of Gene Duplication and Divergence Billie J. Swalla October 16, 2006.

The TGFß Superfamily A Tale of Gene Duplication and Divergence Billie J. Swalla October 16, 2006.
Signals in frog embryos How can we identify developmental signaling pathways? How do other vertebrate embryos develop?

Signals in frog embryos How can we identify developmental signaling pathways? How do other vertebrate embryos develop?
Axis determination in frog embryos How are embryonic axes set up? What signaling events regulate embryo development?

Axis determination in frog embryos How are embryonic axes set up? What signaling events regulate embryo development?
MCDB 4650 Induction and Mesoderm Patterning. If you isolate animal cap cells from a Xenopus embryo at the 8-cell stage and assay them 1 day later, they.

MCDB 4650 Induction and Mesoderm Patterning. If you isolate animal cap cells from a Xenopus embryo at the 8-cell stage and assay them 1 day later, they.

Similar presentations

Ads by Google