Developmental Biology PDF

Summary

These lecture notes cover the development of the integumentary system, including the epidermis, dermis, hair, nails, and skin pigmentation. The document also discusses the role of growth factors in skin development. Topics include the layers of epidermis, dermis, and the cells and structures found within.

Full Transcript

DEVELOPMENTAL BIOLOGY
BIOF7_LECTURE 1ST SEMESTER | LANI TABANGAY | MONDAY/FRIDAY (7:00-8:30)

DEVELOPMENT OF INTEGUMENTARY SYSTEM

LEARNING OUTCOMES

A. Describe the development of epidermis, dermis, and
their associated structures.
B. Identify conditions brought about by abnormal Proliferation of cells in the basal layer, a third,
development of integumentary system intermediate zone is formed.

Additional Information
Why does hair hurts when pulled? The sharp pain might
seem like it's coming from your hair itself, but it's
actually coming from nerves in your scalp.

A SKIN/INTEGUMENT

Largest organ in the body and has a dual origin:
(1) superficial layer, the epidermis, develops from the
surface ectoderm.
(2) deep layer, the dermis, develops from the underlying
mesenchyme.
Dermatology is the study of skin. End of the 4th month, the epidermis acquires its definitive
arrangement and four layers can be distinguished.
The horny layer, forming the tough scale-like surface of
Additional Information the epidermis, made up of closely packed dead cells
The layers of the epidermis, from deepest to most containing keratin.
superficial, are the stratum basale, stratum The granular layer contains small keratohyalin granules
spinosum, stratum granulosum, stratum lucidum, in its cells.
and stratum corneum. The spinous layer consists of large polyhedral cells
The dermis consists of two connective tissue layers: containing fine tonofibrils.
the thinner, upper papillary layer, composed of loose The germinative layer or basal layer is responsible for
connective tissue and responsible for fingerprints, and production of new cells.
the thicker, deeper reticular layer, which is less The corium is the dermis.
cellular and responsible for stretchmarks.

Additional Information
A1 EPIDERMIS Keratin is a protein that forms hair, nails, and the
skin's outer layer, and it also makes hair
waterproof.
Tonofibrils are cytoplasmic structures that
converge at the desmosomes and are anchored in
the cytoskeleton.
Cytoskeleton helps cells maintain their shape
Initially, the embryo is covered by a single layer of
and internal organization, and it also provides
ectodermal cells.
mechanical support that enables cells to carry out
essential functions like division and movement.

A1.1 SKIN PIGMENTATION

End of the 2nd month, release of a layer of flattened cells, Melanoblasts originate from the neural crest and migrate
the periderm, or epitrichium, laid down on the surface. through the stratum basale then differentiate to
It serves as the coat body of the embryo. melanocytes.
It is replaced continuously until the 21 st weeks of Melanosomes is the organelle present in the melanocyte
gestation. that synthesize melanin.
The shed periderm is found in the amniotic fluid. Melanin is a substance present in the skin that produces
skin pigment.

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 Hair consists of:
A1.2 GROWTH FACTORS WHICH STIMULATE
(1) the hair shaft, the part that sticks out from the
THE DEVELOPMENT OF EPIDERMIS
skin’s surface.
(2) the root, a softened thickened bulb at the base of
Transforming growth factor-α (TGF-α) the hair.
o Made by stimulates their own division and acts as an (3) the follicle, a sac-like pit in the skin from which the
autocrine growth factor. hair grows.
o Autocrine is a signaling in which a cell produces a Each has three layers:
substance that acts on itself, to regulate its own
(1) the medulla at the center, which is soft.
growth. (2) the cortex, which surrounds the medulla and is the
Keratinocyte growth factor (KGF) main part of the hair.
o Also known as fibroblast growth factor 7, is a (3) the cuticle, the hard outer layer that protects the
paracrine factor produced by the fibroblasts of the shaft.
underlying dermis. The matrix, a part of the hair follicle, is where matrix
o Paracrine is a signaling where a cell produces a keratinocytes proliferate to form the hair shaft, while
substance that acts on nearby cells. melanocytes mixed among these cells provide color to
o It is received by the basal cells of the epidermis, the hair shaft.
where it is thought to regulate their proliferation.

A2 DERMIS B1 HAIR

Derived from mesenchyme that has three sources:
(1) lateral plate mesoderm supplying cells for dermis
in the limbs and body wall.
(2) paraxial mesoderm supplying cells for dermis in
the back.
(3) neural crest cells supplying cells for dermis in the
face and neck.
During the 3rd and 4th months, the corium forms many
irregular papillary structures, the dermal papillae,
which project upward into the epidermis.
Contain a small capillary or sensory nerve ending.
The second layer of the dermis, subcorium, contains a
large amount of fatty tissue.
Vernix caseosa or birthing custard
o At birth, the skin is covered by a whitish paste
formed by secretions from sebaceous glands and
degenerated epidermal cells and hairs.
o It protects the skin of the newborn against the
macerating action of amniotic fluid.
(A) Hairs begin development as solid epidermal
proliferations from the generative layer that penetrates
B HAIR FOLLICLE
the underlying dermis.
(B, C) At their terminal ends, hair buds invaginate to form
hair papillae, which are rapidly filled with mesoderm
containing in which blood vessels and nerve endings
develop.
(B, C) Soon, cells in the center of the hair buds become
spindle-shaped and keratinized, forming the hair shaft,
while peripheral cells become cuboidal, giving rise to the
epithelial hair sheath.
(C) Dermal root sheath is formed by the surrounding
mesenchyme.
(C) A small smooth muscle, the arrector pili, derived from
mesenchyme, is typically attached to the dermal root
sheath.
(C) Continuous proliferation of epithelial cells at the base
of the shaft pushes the hair upward, and by the end of the
3rd month, the first hairs appear on the surface in the
region of the eyebrow and upper lip.
(C) The first hair that appears, lanugo hair, is shed at
about the time of birth and is later replaced by coarser
hairs arising from new hair follicles.
(C) Lanugo, the embryonic hair, is replaced by vellus (fine,
thin hair) and terminal hair found on the scalp, axilla, and
genitalia.
(C) The epithelial wall of the hair follicle usually shows a
small bud penetrating the surrounding mesoderm.

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 (C) The epithelial wall of the hair follicle forms small buds
D SWEAT GLANDS
that penetrate the surrounding mesoderm, and cells from
these buds give rise to sebaceous glands. Sweat glands are found across the entire surface of the
(C) Cells from the central region of the gland degenerate, body and play a role in lubricating the skin, temperature
forming a fat-like substance (sebum) secreted into the regulation, salt and water balance and are essential for
hair follicle, and from there, it reaches the skin. the maintenance of normal physiology.
Eccrine Glands
o Most common and are found all over the surface of
the body.
B2 HAIR GROWTH OCCURS IN CYCLES
CONSISTING OF THREE PHASES o They are most numerous on the palm of the hands
and sole of the feet.
Apocrine Glands
Anagen (growth phase)
o Common in armpits and groin area.
o Cells of the germinative epithelium at the base of the
follicle rapidly proliferate and differentiate to o Sweat from the apocrine glands does not evaporate
as quickly and can lead to foul body odor.
produce the lengthening hair fiber and layers of the
o Apocrine sweat is often a result of emotional stress
inner root sheath.
or anxiety.
Catagen (transitional phase)
o The growth slows down and the follicle shrinks.
Telogen (resting phase) D1 ECCRINE SWEAT GLANDS
o Hairs do not grow and do not usually fall out and new
hairs start to form in follicles that have just released Form in the skin over most parts of the body beginning as
hairs during the catagen phase. buds from the germinative layer of the epidermis.
Exogen (shedding phase) These buds grow into the dermis, and their end coils to
o The extension of telogen stage and hair is shed form form the secretory parts of the glands.
the scalp. Smooth muscle cells associated with the glands also
develop from the epidermal buds.
These glands function by merocrine mechanisms
(exocytosis) and are involved in temperature control.

D2 APOCRINE SWEAT GLANDS
Develop anywhere there is body hair, including the face,
axillae, and pubic region.
Begin to develop during puberty and arise from the same
epidermal buds that produce hair follicles.
These sweat glands open onto hair follicles onto hair
follicles instead of skin.
C NAILS
The sweat produced contains lipids, proteins, and
pheromones, and odor is due to bacteria that break down
The nail is composed of seven parts:
these products.
(1) nail plate is the hard keratinized structure that
forms the visible part of the nail. These glands classified as apocrine because a portion of
(2) nail folds (groove) is the skin surrounding and the secretory cells is shed and incorporated into the
supporting the nail on three sides. secretion.
(3) nail bed (sterile matrix) is the pinkish tissue
underneath the nail plate. E MAMMARY GLANDS
(4) germinal matrix is the base of the nail bed.
(5) hyponychium is the skin beneath the free edge of
the nail.
(6) cuticle (eponychium) is the thin layer of tissue
covering the base of the nail plate.
(7) lunula is the half-moon-shaped area at the base of
the nail, representing the visible part of the nail’s
root.
During week 10 of human development, the fetus
develops its fingernails first, which are followed by the
ten toenails (week 14), just as the arms and hands
develop before the legs and feet.
Originally, the nail fields appear at the tips of the digits
and then migrate toward the dorsal surfaces.
While the surrounding cells form the nail folds,
keratinization of the proximal nail folds forms the nail
plates.
By week 32, the fingernails, and by week 36, toenails,
reach the tips of the digits. Modified sweat glands and first appear as bilateral bands
of thickened epidermis called the mammary lines and
Often the stage of nail growth of a baby is utilized as an
mammary ridges.
indicator of the degree of prematurity.

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 In a 7-week embryo, these lines extend on each side of the
ABNORMALITIES OF HAIR DISTRIBUTION
body from the base of the forelimb to the region of the
F3
hindlimb.
Congenital atrichia
Although a major part of each mammary line disappears
o Congenital atrichia is a rare genetic disorder caused
shortly after it forms, a small portion in the thoracic
by mutations in the human hairless (HR) gene on
region persists and penetrates the underlying
chromosome 8p22.
mesenchyme.
o It leads to the loss of scalp hair within the first six
It forms 16 to 24 sprouts, which in turn give rise to small, months of life, with no regrowth afterward.
solid buds. o It may also have sparse or absent eyebrow, eyelash,
By the end of prenatal life, the epithelial sprouts are and body hair, with limited pubic and axillary hair
canalized to form the lactiferous ducts, which initially growth.
open into a small epithelial pit. Hypertrichosis
Shortly after birth, the pit is transformed into the nipple o It is a condition characterized by excessive hair
by proliferation of the underlying mesenchyme. growth, either localized or covering the entire body.
At birth, lactiferous ducts have no alveoli and therefore o It results from an unusual abundance of hair follicles.
no secretory apparatus. o The SOX3 gene, which plays a role in hair growth.
At puberty, increased estrogen and progesterone
stimulate branching from the ducts to form alveoli and
secretory cells. F4 ABNORMALITIES OF MAMMARY GLAND

Polythelia
F CLINICAL CORRELATES o Formation of accessory nipple from the persistence
of fragments of the mammary line.
Polymastia
Additional Information o It occurs when a remnant of the mammary line
Genodermatosis refer to skin condition that is develops into a complete breast.
associated with genetics. Inverted nipple
o Lactiferous ducts open into the original epithelial pit
that has failed to evert.
F1 ABNORMALITIES OF MELANOCYTE
FUNCTION

Piebaldism
o Rare inherited condition characterized by the
absence of melanocytes in certain areas of the skin
and hair, resulting in a white forelock.
o Mutations of the c-Kit gene, which affects the
differentiation and migration of melanoblasts from
neural crest during the embryonic life.
Waardenburg syndrome
o Waardenburg syndrome is a genetic disorder caused
by mutations in the PAX3 gene.
o Characterized by distinctive features such as white
patches of skin and hair, heterochromia irides, a
square face, a wide nasal bridge, and often deafness.
o These symptoms result from faulty migration or
proliferation of neural crest cells.
Albinism
o Reduced or absence of pigmentation in the skin, hair,
and eyes.
o Abnormalities of melanin synthesis or processing.

F2 KERATINIZATION DISORDERS

Harlequin Type Ichthyosis
o Excessive keratinization of the skin.
o Infants with this condition, born prematurely with
very hard, thick skin covering most of their bodies.
o The skin forms large, diamond-shaped plates that
are separated by deep cracks (fissures).
o These skin abnormalities affect the shape of the
eyelids, nose, mouth, and ears, and limit movement
of the arms and legs.
o Restricted movement of the chest can lead to
breathing difficulties and respiratory failure in
babies with harlequin ichthyosis.
o Affected infants also have feeding problems.

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