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Transcript 
Histogenesis
151
Course 5: Cells and tissue
development
Course 5: Development
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137 Case report: Thalidomide
138 Basic morphogenetic processes
139 Regeneration and reparation
140 Female reproductive system
142 Gametogenesis and fertilization
144 Genetic determination of the sex
145 Signalization in development
146 Blastogenesis, notogenesis
149 Notogenesis, neurulation
150 Embryonic period
151 Histogenesis
152 Human reproductive genetics
153 Developmental toxicology
154 Ageing
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141 Female reproductive system
143 Male reproductive system
147 Extraembryonic organs
148 Early embryonic development, chick
Aim
• histogenesis – the origin and development of specialised
tissues and organs – the derivates of:
• ectoderm
• mesoderm
• endoderm
blastogenesis
embryonic period
Histogenesis, organogenesis
fetal period
Ontogenesis
• mechanisms operate…at different levels
• cells - differentiation
• cell populations - morphogenesis - structure development
• cell populations set - morphogenetic system – realizes
structure and function programme in organ or part of the
body – basic morphogenetic processes
1. Cell level – differentiation – mesenchymal cell
mesenchymal cell
chondroblast
cartilage
lipoblast
fat
fibroblast
osteoblast
myoblast
bone
muscle
hemocytoblast
endothelium
blood cells
connective tissue, ligaments, tendons
Cell level – differentiation – neuroepithelim
2. Cell populations level
• development of structures/ organs - morphogenesis
• 1. induction – one cell population induces the change of the
fate in another cell population
• epithelial-mesenchymal interactions
examples: limbs, lens, nephrons, teeth
cross-talk
• 2. cell-signalling, signalising cell x target cell (must be
sensitive to this signal)
paracrine interactions, contact interactions
• induction neuroectoderm / surface ectoderm –
lens placode
Induction in gonad – indifferent stage
induction – primordial germ cells/ testes, ovary
induction – coelomic epithelium / mesenchyme
3. Morphogenetic systems level
= group of cell populations relize the developmental
programme
• basic morphogenetic processes - 4 processes play out at the
cell population level to essentially create the final organism
• proliferation
• migration
• asociation
• programmed cell death - apoptosis
Morphogenetic system level
neural tube differentiation in CNS development
Histogenesis
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EPIBLAST is the maternal of 3 germ layers
ectoderm and endoderm are epithelia
Expression CAM +
mesoderm is connective tissue – primary
mesenchyme
• No Expression CAM -
Origin of 3 germ layers
Germ layers derivates
Epiblast
ectoderm
• nervous systeme
• senses
• skin
mesoderm
urogenital
sytem
mesenchyme
connectives
circulatory s.
hematopoesis,
immune s.
endocrine s.
endoderm
digestive s.
respiratory s
Ectoderm and its differentiation
1.neuroectoderm (neural tube a neural crest)
2. surface ectoderm
1.neuroectoderm
2. surface ectoderm
neuroectoderm:
NT, neural crest
placodes
surface
ectoderm:
epidermis
Neural tube – region of the future brain
(segmentation- neuromers- brain vesicles)
induction neuroectoderm / surface ectoderm
placodes - otic placodes and lens placodes
Neuroectoderm - neural crest – definitive
derivates
connectives,
cartilage, bone,
dermis of the head
cranial nerves
ganglia
odontoblasts,
Schwann cells
melanocytes,
C-cells of
thyroid
autonomic
ganglia
adrenal medulla
Ectoderm derivates mediate the contact
between body and outer environment
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CNS
PNS
sensory epithelium of the ear, nose, eye
epidermis and its derivates – hairs, nails
glands of the skin, mammary gland
hypophysis
enamel
Endoderm and its differentiation
yolk sac roof and wall,
primitive gut
Endoderm-lined cavity and its position during
cephalo-caudal folding
sagittal midline section
Endoderm and its derivates
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gastrointestinal tract – epithelium
respiratory sytem – epithelium
parenchyme of the liver, pancreas, thyroid
reticular stroma of tonsils and thymus
epithelium of salivary glands
epithelium of urinary bladder, urethra
epitel of middle ear and Eustachian tube
Mesoderm and its early differentiation
axial, paraxial, intermediate, lateral
Mesoderm – mesenchyme – embryonic
connective tissue
Somite differentiation
sclerotome, dermatome, myotome
epiteloid arrangement of somite
sclerotome –
connectives coating
spinal cord
dorsolateral cells
migrate to the limb
bud - muscles
Dorsomedial cells –
myotome –trunk
muscles
dorsally dermatom –
beneath ectoderm –
dermis in the skin
Somites, 42 – 44 pairs . 1.pair in occipital region, 20ED
Material: paraxial mesoderm
Segmentation: Notch, WNT, segmentation genes
Retinoic acid, FGF8, cranio-caudal gradient
S
Intermediate mesoderm – derivates
urogenital sytem
in cervical, and thoracal region – segmented in nephrotomes
abdominal – nefrogenic blastema
Excretory units of kidney and gonad
primordium
Lateral mesoderm – splanchnic/ splanchnopleura
and somatic/ somatopleura
splanchnopleura – wall of gut (CT, muscle)
somatopleura – serous membrane – inner
lining of coelom
transversal section
3week
4week
Mesoderm and its derivates
• connectives (connective tissue proper, cartilage,
bone)
• blood
• mesothel and endothel– the only epithelia
• kidneys
• gonads
• mesothel – simple squamous epithel of the visceral
peritoneum /splanchnopleura in peritoneal cavity
Tissues family tree
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