Connective tissue
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Jul 07, 2020
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About This Presentation
Connective tissue
Table of contents:
*introduction
*function of connective tissue
*cells of connective tissue
*fibers of connective tissue
* Ground substance
*types of connective tissue
*Lab quiz
Slide Content
Palestine Polytechnic University
Faculty of Medicine
Histology
Hebron
Faculty of Medicine
Histology
Hebron
ØIntroduction
ØFinctions of connective tissue
ØCells of connective tissue
ØFibers of connective tissue
ØGround substance
ØTypes of connective tissue
ØLab quiz
2
ØFinctions of connective tissue
ØCells of connective tissue
ØFibers of connective tissue
ØGround substance
ØTypes of connective tissue
ØLab quiz
2
§Connective tissue is one of the four tissues found
in the human body.
§Connective tissue provides a matrix that supports
and physically connects other tissues and cells
together to form the organs of the body.
§Connective tissue is found in between other
tissues everywhere in the body, including the
nervous system.
3
in the human body.
§Connective tissue provides a matrix that supports
and physically connects other tissues and cells
together to form the organs of the body.
§Connective tissue is found in between other
tissues everywhere in the body, including the
nervous system.
3
4
Main characteristics of the four basic types of tissues
Main characteristics of the four basic types of tissues
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6
Organ Components:
§Most organs can be divided into:
ØThe parenchyma, which is composed of the
cells responsible for the organ’s specialized
functions.
ØThe stroma, the cells of which have a
supporting role in the organ. Except in the
brain and spinal cord, the stroma is always
connective tissue.
Organ Components:
§Most organs can be divided into:
ØThe parenchyma, which is composed of the
cells responsible for the organ’s specialized
functions.
ØThe stroma, the cells of which have a
supporting role in the organ. Except in the
brain and spinal cord, the stroma is always
connective tissue.
7
Most Organs Parenchyma Stroma
-------------------------------------------------------
Most Organs Parenchyma Stroma
-------------------------------------------------------
§Connective tissue originates from the
mesenchyme.
§ A tissue developing mainly from the middle layer of the
embryo, the mesoderm.
§Mesenchymal cells are undifferentiated and have large nuclei,
with prominent nucleoli and fine chromatin. They are
“spindle-shaped,” with their scant cytoplasm extended as two
or more thin cytoplasmic processes.
§Embryonic mesenchyme producing all types of connective
tissue proper and the specialized connective tissues bone and
cartilage, they also include stem cells for other tissues such as
blood, the vascular endothelium, and muscle.
8
mesenchyme.
§ A tissue developing mainly from the middle layer of the
embryo, the mesoderm.
§Mesenchymal cells are undifferentiated and have large nuclei,
with prominent nucleoli and fine chromatin. They are
“spindle-shaped,” with their scant cytoplasm extended as two
or more thin cytoplasmic processes.
§Embryonic mesenchyme producing all types of connective
tissue proper and the specialized connective tissues bone and
cartilage, they also include stem cells for other tissues such as
blood, the vascular endothelium, and muscle.
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Origin of connective tissue cells
Origin of connective tissue cells
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Origin of connective tissue cells
Origin of connective tissue cells
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Components
Cells Matrix
Ground
Substance
Fibers
Components
Cells Matrix
Ground
Substance
Fibers
§Connective tissue is composed of cells and an
extracellular matrix that binds the cells and organs,
integrating all parts of the body.
§Connective tissue is the most widespread tissue of
the body and can be found in every organ.
§A variety of cell types are found in connective
tissues.
12
extracellular matrix that binds the cells and organs,
integrating all parts of the body.
§Connective tissue is the most widespread tissue of
the body and can be found in every organ.
§A variety of cell types are found in connective
tissues.
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Connective tissue vs Epithelium:
§Unlike the other tissue types (epithelium,
muscle, and nerve), which consist mainly of
cells, the major constituent of connective tissue
is the extracellular matrix (ECM).
15
§Unlike the other tissue types (epithelium,
muscle, and nerve), which consist mainly of
cells, the major constituent of connective tissue
is the extracellular matrix (ECM).
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§Connective tissue that connects, supports, binds, or
separates other tissues or organs, typically having
relatively few cells embedded in an amorphous
matrix, often with or other fibres, and
including cartilaginous, fatty, and elastic tissues.
§The variety of connective tissue types in the body
reflects differences in composition and amount of
the cells, fibers, and ground substance which
together are responsible for the remarkable
structural, functional, and pathologic diversity of
connective tissue.
17
separates other tissues or organs, typically having
relatively few cells embedded in an amorphous
matrix, often with or other fibres, and
including cartilaginous, fatty, and elastic tissues.
§The variety of connective tissue types in the body
reflects differences in composition and amount of
the cells, fibers, and ground substance which
together are responsible for the remarkable
structural, functional, and pathologic diversity of
connective tissue.
17
Classes of Connective Tissue
§Connective tissue proper
§Dense connective tissue
§Loose connective tissue
§Cartilage
§Bone
§Blood
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§Connective tissue proper
§Dense connective tissue
§Loose connective tissue
§Cartilage
§Bone
§Blood
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ØProtect
ØStructural support
ØBind
ØTrsansport
ØImmunity
Connective tissue serves a number of important functions:
§It provides mechanical support to tissues and organs allowing them to resist tension
and compression.
§It organizes cells into tissues by binding to surface receptors on cells and regulating
their growth and morphology.
§It provides metabolic support in the form of growth factors, hormones, and high
energy lipids through blood vessels.
§It contains a variety of cells that generate immune responses to foreign cells.
These functions tend to be exclusive so that connective tissue that is mechanically robust
ofers less metabolic and immune support. In contrast, connective tissue that provides
metabolic and immune support tends to be weaker.
20
Connective tissue binds skin to
muscles
ØStructural support
ØBind
ØTrsansport
ØImmunity
Connective tissue serves a number of important functions:
§It provides mechanical support to tissues and organs allowing them to resist tension
and compression.
§It organizes cells into tissues by binding to surface receptors on cells and regulating
their growth and morphology.
§It provides metabolic support in the form of growth factors, hormones, and high
energy lipids through blood vessels.
§It contains a variety of cells that generate immune responses to foreign cells.
These functions tend to be exclusive so that connective tissue that is mechanically robust
ofers less metabolic and immune support. In contrast, connective tissue that provides
metabolic and immune support tends to be weaker.
20
Connective tissue binds skin to
muscles
21
ØFibroblasts
ØAdipocytes
ØMacrophages & the Mononuclear Phagocyte
System
ØMast Cells
ØPlasma Cells
ØLeukocytes
22
ØAdipocytes
ØMacrophages & the Mononuclear Phagocyte
System
ØMast Cells
ØPlasma Cells
ØLeukocytes
22
§Fibroblasts are the key cells in connective tissue
proper. Fibroblasts originate locally from
mesenchymal cells and are permanent residents of
connective tissue.
§Other cells found here, such as macrophages,
plasma cells, and mast cells, originate from
hematopoietic stem cells in bone marrow, circulate
in the blood, and then move into connective tissue
where they function.
23
proper. Fibroblasts originate locally from
mesenchymal cells and are permanent residents of
connective tissue.
§Other cells found here, such as macrophages,
plasma cells, and mast cells, originate from
hematopoietic stem cells in bone marrow, circulate
in the blood, and then move into connective tissue
where they function.
23
§The most common cells in connective tissue
proper.
§Produce and maintain most of the tissue’s
extracellular components.
§Fibroblasts synthesize and secrete collagen (the
most abundant protein of the body) and elastin,
which both form large fibers, as well as the
GAGs, proteoglycans, and multiadhesive
glycoproteins that comprise the ground substance.
24
proper.
§Produce and maintain most of the tissue’s
extracellular components.
§Fibroblasts synthesize and secrete collagen (the
most abundant protein of the body) and elastin,
which both form large fibers, as well as the
GAGs, proteoglycans, and multiadhesive
glycoproteins that comprise the ground substance.
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C: Connective tissue
arrows: Fibroblasts
C: Connective tissue
arrows: Fibroblasts
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Active vs quiescent cells
Active vs quiescent cells
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Active vs quiescent cells
Active vs quiescent cells
§Adipocytes, or fat cells, are found in the
connective tissue of many organs.
§These large, mesenchymally derived cells are
specialized for cytoplasmic storage of lipid as
neutral fats, or less commonly for the production
of heat.
§Tissue with a large population of adipocytes,
called adipose connective tissue, serves to
cushion and insulate the skin and other organs.
31
connective tissue of many organs.
§These large, mesenchymally derived cells are
specialized for cytoplasmic storage of lipid as
neutral fats, or less commonly for the production
of heat.
§Tissue with a large population of adipocytes,
called adipose connective tissue, serves to
cushion and insulate the skin and other organs.
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Adipocytes
Stored lipids
Adipocytes
Stored lipids
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White Fat Cell
White Fat Cell
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Brown fat cell
Brown fat cell
ØMacrophages & the Mononuclear
Phagocyte System
§Macrophages a large phagocytic cell found in
stationary form in the tissues or as a mobile white
blood cell, especially at sites of infection.
§Size and shape vary considerably, corresponding
to their state of functional activity.
§A typical macrophage measures between 10 and
30 μm in diameter and has an eccentrically located,
oval or kidney-shaped nucleus.
35
Phagocyte System
§Macrophages a large phagocytic cell found in
stationary form in the tissues or as a mobile white
blood cell, especially at sites of infection.
§Size and shape vary considerably, corresponding
to their state of functional activity.
§A typical macrophage measures between 10 and
30 μm in diameter and has an eccentrically located,
oval or kidney-shaped nucleus.
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Macrophage ultrastructure
N: nucleus L: lysosomes Nu: nucleolus
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N: nucleus L: lysosomes Nu: nucleolus
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Macrophage
Macrophage
§Macrophages arise from precursor cells called
monocytes. Monocytes originate in the bone
marrow from where they are released into the
blood stream. They are actively mobile and leave
the blood stream to enter connective tissues, where
they differentiate into macrophages.
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monocytes. Monocytes originate in the bone
marrow from where they are released into the
blood stream. They are actively mobile and leave
the blood stream to enter connective tissues, where
they differentiate into macrophages.
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Distribution and main functions of the cells of the
mononuclear phagocyte system
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mononuclear phagocyte system
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ØMast Cells
§Mast cells are oval or irregularly shaped cells of
connective tissue, between 7 and 20 μm in
diameter.
§Mast cells filled with basophilic secretory
granules that often obscure the central nucleus.
§Mast cells are components of loose connective
tissues, often located near small blood vessels.
41
§Mast cells are oval or irregularly shaped cells of
connective tissue, between 7 and 20 μm in
diameter.
§Mast cells filled with basophilic secretory
granules that often obscure the central nucleus.
§Mast cells are components of loose connective
tissues, often located near small blood vessels.
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BV: blood vessels
Mast cells
BV: blood vessels
Mast cells
M: mitochondria N: nucleus E: elastic fibers
G: cytoplasmic granule C: collagen fibers
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Ultrastructurally mast cells
G: cytoplasmic granule C: collagen fibers
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Ultrastructurally mast cells
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Mast cell
Mast cell
Function of Mast cells
§Localized release of many bioactive substances
important in the local inflammatory response,
innate immunity, and tissue repair.
§A partial list of molecules released from these
cells’ secretory granules includes the following:
ØHeparin
ØHistamine
ØHistamine
ØEosinophil and neutrophil chemotactic factors
ØCytokines
ØPhospholipid
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§Localized release of many bioactive substances
important in the local inflammatory response,
innate immunity, and tissue repair.
§A partial list of molecules released from these
cells’ secretory granules includes the following:
ØHeparin
ØHistamine
ØHistamine
ØEosinophil and neutrophil chemotactic factors
ØCytokines
ØPhospholipid
45
Like macrophages, mast cells originate from
progenitor cells in the bone marrow, which circulate
in the blood, cross the wall of small vessels called
venules, and enter connective tissues, where they
differentiate.
46
progenitor cells in the bone marrow, which circulate
in the blood, cross the wall of small vessels called
venules, and enter connective tissues, where they
differentiate.
46
ØPlasma Cells
§Plasma cells are lymphocyte-derived, antibody-
producing cells. These relatively large, ovoid
cells have basophilic cytoplasm rich in RER and
a large Golgi apparatus near the nucleus that
may appear pale in routine histologic
preparations.
§The nucleus of the plasma cell is generally
spherical but eccentrically placed.
§Their average life span is only 10-20 days.
47
§Plasma cells are lymphocyte-derived, antibody-
producing cells. These relatively large, ovoid
cells have basophilic cytoplasm rich in RER and
a large Golgi apparatus near the nucleus that
may appear pale in routine histologic
preparations.
§The nucleus of the plasma cell is generally
spherical but eccentrically placed.
§Their average life span is only 10-20 days.
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Connective tissue
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ØLeukocytes
§leukocyte is a colourless cell which circulates in
the blood and body fluids and is involved in
counteracting foreign substances and disease; a
white (blood) cell. There are several types, all
amoeboid cells with a nucleus, including
lymphocytes, granulocytes, and monocytes.
§leukocytes, besides macrophages and plasma
cells normally comprise a population of
wandering cells in connective tissue.
51
§leukocyte is a colourless cell which circulates in
the blood and body fluids and is involved in
counteracting foreign substances and disease; a
white (blood) cell. There are several types, all
amoeboid cells with a nucleus, including
lymphocytes, granulocytes, and monocytes.
§leukocytes, besides macrophages and plasma
cells normally comprise a population of
wandering cells in connective tissue.
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Types of white blood cells (leukocytes)
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Connective tissue 53
Functions of cells
in connective tissue
proper
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in connective tissue
proper
54
§The fibrous components of connective tissue
are elongated structures formed from proteins
that polymerize after secretion from fibroblasts.
§The three main types of fibers are:
§Collagen
§Reticular fibers
§Elastic fibers
55
are elongated structures formed from proteins
that polymerize after secretion from fibroblasts.
§The three main types of fibers are:
§Collagen
§Reticular fibers
§Elastic fibers
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•is a type of fiber found in
connective tissue that provides
strength
Collagen
fiber
•is a type of fiber found in
connective tissue that has a netlike
formation and provides support
Reticular
fiber
•is a type of fiber found in
connective tissue that can stretch
and recoil
Elastic
fiber
•is a type of fiber found in
connective tissue that provides
strength
Collagen
fiber
•is a type of fiber found in
connective tissue that has a netlike
formation and provides support
Reticular
fiber
•is a type of fiber found in
connective tissue that can stretch
and recoil
Elastic
fiber
§Collagen and reticular fibers are both formed by
proteins of the collagen family, and elastic fibers
are composed mainly of the protein elastin.
§ These fibers are distributed unequally among the
different types of connective tissue, with the
predominant fiber type conferring most specific
tissue properties.
57
proteins of the collagen family, and elastic fibers
are composed mainly of the protein elastin.
§ These fibers are distributed unequally among the
different types of connective tissue, with the
predominant fiber type conferring most specific
tissue properties.
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ØCollagen
§The collagens constitute a family of proteins
selected during evolution for their ability to
form various extracellular fibers, sheets, and
networks, all of which extremely strong and
resistant to normal shearing and tearing forces.
§Collagen is a key element of all connective
tissues, as well as epithelial basement
membranes and the external laminae of muscle
and nerve cells.
61
§The collagens constitute a family of proteins
selected during evolution for their ability to
form various extracellular fibers, sheets, and
networks, all of which extremely strong and
resistant to normal shearing and tearing forces.
§Collagen is a key element of all connective
tissues, as well as epithelial basement
membranes and the external laminae of muscle
and nerve cells.
61
§Collagen is the most abundant protein in the
human body, representing 30% of its dry weight.
§A family of 28 collagens exists in vertebrates,
numbered in the order they were identified, and
the most important are listed in table in the next
slide. They can be categorized according to the
structures formed by their interacting α-chains
subunits:
62
human body, representing 30% of its dry weight.
§A family of 28 collagens exists in vertebrates,
numbered in the order they were identified, and
the most important are listed in table in the next
slide. They can be categorized according to the
structures formed by their interacting α-chains
subunits:
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§ Type I is the most common - 90% of all
collagens are type I. This type is found in bone,
skin, tendon, ligaments, cornea etc.
§Types I, II, III, V and IX are fibrillar, which
means that the protein chains assemble into
fibrils, 10-300nm in diameter.
§Types V & VI form networks in the basal
lamina.
§Type VI helps to anchor basal lamina of skin to
underlying connective tissue.
64
collagens are type I. This type is found in bone,
skin, tendon, ligaments, cornea etc.
§Types I, II, III, V and IX are fibrillar, which
means that the protein chains assemble into
fibrils, 10-300nm in diameter.
§Types V & VI form networks in the basal
lamina.
§Type VI helps to anchor basal lamina of skin to
underlying connective tissue.
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C: type I collagen fibrils
arrows: fibroblast
Type I collagen fibrils
C: type I collagen fibrils
arrows: fibroblast
Type I collagen fibrils
Collagen synthesis:
§Collagen synthesis occurs in many cell types but is
a specialty of fibroblasts. The initial procollagen α
chains are polypeptides made in the RER.
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The Collagen subunit
§Collagen synthesis occurs in many cell types but is
a specialty of fibroblasts. The initial procollagen α
chains are polypeptides made in the RER.
66
The Collagen subunit
This is a scanning EM
of collagen fibres
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of collagen fibres
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ØReticular fibers
§Reticular fibers found in delicate connective
tissue of many organs, notably in the immune
system.
§Reticular fibers consist mainly of collagen type
III, which forms an extensive network
(reticulum) of thin (diameter 0.5-2 μm) fibers
for the support of many different cells.
71
§Reticular fibers found in delicate connective
tissue of many organs, notably in the immune
system.
§Reticular fibers consist mainly of collagen type
III, which forms an extensive network
(reticulum) of thin (diameter 0.5-2 μm) fibers
for the support of many different cells.
71
§Reticular fibers are seldom visible in hematoxylin
and eosin (H&E) preparations but are
characteristically stained black after impregnation
with silver salts and are thus termed argyrophilic.
72
and eosin (H&E) preparations but are
characteristically stained black after impregnation
with silver salts and are thus termed argyrophilic.
72
§Reticular fibers produced by fibroblasts.
§Reticular fibers occur in the reticular lamina of
basement membranes and typically also surround
adipocytes, smooth muscle and nerve fibers, and
small blood vessels.
§Abundant reticular fibers also characterize the
stroma of hemopoietic tissue (bone marrow), the
spleen, and lymph nodes where they support
rapidly changing populations of proliferating cells
and phagocytic cells.
73
§Reticular fibers occur in the reticular lamina of
basement membranes and typically also surround
adipocytes, smooth muscle and nerve fibers, and
small blood vessels.
§Abundant reticular fibers also characterize the
stroma of hemopoietic tissue (bone marrow), the
spleen, and lymph nodes where they support
rapidly changing populations of proliferating cells
and phagocytic cells.
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Reticular vs Collagen Fibers
Reticular fibers Collagen fibers
Reticular vs Collagen Fibers
Reticular fibers Collagen fibers
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Reticular vs Collagen Fibers
Reticular fibers Collagen fibers
Reticular vs Collagen Fibers
Reticular fibers Collagen fibers
ØElastic fibers
§Elastic fibers (or yellow fibers) are bundles of
proteins (elastin) found in extracellular matrix of
connective tissue.
§Elastic fibers produced by fibroblasts and smooth
muscle cells in arteries.
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Elastin An elastic fiber
§Elastic fibers (or yellow fibers) are bundles of
proteins (elastin) found in extracellular matrix of
connective tissue.
§Elastic fibers produced by fibroblasts and smooth
muscle cells in arteries.
77
Elastin An elastic fiber
§Elastic fibers are thinner than the type I collagen
fibers and form sparse networks interspersed with
collagen bundles in many organs, particularly
those subject to regular stretching or bending.
§Elastic fibers can stretch up to 1.5 times their
length, and snap back to their original length when
relaxed (e.g. the stroma of the lungs) 78
fibers and form sparse networks interspersed with
collagen bundles in many organs, particularly
those subject to regular stretching or bending.
§Elastic fibers can stretch up to 1.5 times their
length, and snap back to their original length when
relaxed (e.g. the stroma of the lungs) 78
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Elastic fibers
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Molecular basis of elastic fiber elasticity
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Reticular vs Elastic vs Collagen Fibers
Reticular fibers Collagen fibers Elastic fibers
Reticular vs Elastic vs Collagen Fibers
Reticular fibers Collagen fibers Elastic fibers
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Reticular vs Elastic vs Collagen Fibers
Reticular fibers Elastic fibers Collagen fibers
Reticular vs Elastic vs Collagen Fibers
Reticular fibers Elastic fibers Collagen fibers
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§Ground substance is an amorphous gel-like
substance in the extracellular space.
§The ground substance of the ECM is a highly
hydrated (with much bound water), transparent,
complex mixture of three major kinds of
macromolecules:
§Glycosaminoglycans (GAGs)
§Proteoglycans
§Multiadhesive glycoproteins
86
substance in the extracellular space.
§The ground substance of the ECM is a highly
hydrated (with much bound water), transparent,
complex mixture of three major kinds of
macromolecules:
§Glycosaminoglycans (GAGs)
§Proteoglycans
§Multiadhesive glycoproteins
86
Ground substance functions:
§Ground substance filling the space between cells
and fibers in connective tissue.
§Ground substance allows diffusion of small
molecules and, because it is viscous, acts as both a
lubricant and a barrier to the penetration of
invaders.
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§Ground substance filling the space between cells
and fibers in connective tissue.
§Ground substance allows diffusion of small
molecules and, because it is viscous, acts as both a
lubricant and a barrier to the penetration of
invaders.
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ØGlycosaminoglycans (GAGs)
§GAGs (also called mucopolysaccharides) are
long polymers of repeating disaccharide units,
usually a hexosamine and uronic acid.
§The hexosamine can be glucosamine or
galactosamine, and the uronic acid can be
glucuronate or iduronate.
§The largest and most ubiquitous GAG is
hyaluronan (also called hyaluronate or hyaluronic
acid).
89
§GAGs (also called mucopolysaccharides) are
long polymers of repeating disaccharide units,
usually a hexosamine and uronic acid.
§The hexosamine can be glucosamine or
galactosamine, and the uronic acid can be
glucuronate or iduronate.
§The largest and most ubiquitous GAG is
hyaluronan (also called hyaluronate or hyaluronic
acid).
89
§Hyaluronan forms a viscous, pericellular network
that binds a considerable amount of water, giving
it an important role in allowing molecular
diffusion through connective tissue and in
lubricating various organs and joints.
90
that binds a considerable amount of water, giving
it an important role in allowing molecular
diffusion through connective tissue and in
lubricating various organs and joints.
90
ØProteoglycans
Proteoglycans are GAG's that are covalently
attached to a 'core' protein.
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Proteoglycans are GAG's that are covalently
attached to a 'core' protein.
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§Different combinations and densities of the cells,
fibers, and other ECM components produce
graded variations in histological structure within
connective tissue.
§Descriptive names or classifications used for the
various types of connective tissue typically denote
either a structural characteristic or a major
component.
§Different combinations and densities of the cells,
fibers, and other ECM components produce
graded variations in histological structure within
connective tissue.
§Descriptive names or classifications used for the
various types of connective tissue typically denote
either a structural characteristic or a major
component.
94
Classification of connective or supporting tissues
Classification of connective or supporting tissues
95
CT proper
Binds
Dense CT
Regular
Lig.+Tend.
Irregular
Epidermis
Elastic
Aorta
Loose CT
Adipose
Fat
Areolar
Protects
Reticular
lymph organs
Supporting CT
Protection/ Structure
Cartilage
Elastic
Ear
Hyaline
Ribs
Fibrocartilage
Vertibral discs
Bone
Fluid CT
Transport
Blood
Connective tissue (CT)
CT proper
Binds
Dense CT
Regular
Lig.+Tend.
Irregular
Epidermis
Elastic
Aorta
Loose CT
Adipose
Fat
Areolar
Protects
Reticular
lymph organs
Supporting CT
Protection/ Structure
Cartilage
Elastic
Ear
Hyaline
Ribs
Fibrocartilage
Vertibral discs
Bone
Fluid CT
Transport
Blood
Connective tissue (CT)
96
Connective tissue proper
Loose connective tissue
Dense connective tissue
Supporting connective
tissue
Cartilage
Bone
Fluid connective tissue
Blood
Connective tissue proper
Loose connective tissue
Dense connective tissue
Supporting connective
tissue
Cartilage
Bone
Fluid connective tissue
Blood
ØConnective Tissue Proper
Connective tissue proper is broadly classified as:
§Loose connective tissue
§Dense connective tissue
§Regular dense connective tissue
§Irregular dense connective tissue
97
Connective tissue proper is broadly classified as:
§Loose connective tissue
§Dense connective tissue
§Regular dense connective tissue
§Irregular dense connective tissue
97
§Loose connective tissue
§Also called areolar tissue, is common, a layer
beneath the epithelial lining of many organs and
filling the spaces between fibers of muscle and
nerve.
§The loose connective tissue typically contains
cells, fibers, and ground substance in roughly
equal parts.
98
§Also called areolar tissue, is common, a layer
beneath the epithelial lining of many organs and
filling the spaces between fibers of muscle and
nerve.
§The loose connective tissue typically contains
cells, fibers, and ground substance in roughly
equal parts.
98
Charastaristics of Loose connective tissue:
§Delicate, flexible, not very resistant to stress.
§Well vascularized.
§All types of connective tissue cells present.
(Majority are fibroblasts and macropahges)
§Collagen, elastic, and reticular fibers present.
§In certain organs (intestine) and in certain disease
conditions, numerous lymphocytes may be present.
99
§Delicate, flexible, not very resistant to stress.
§Well vascularized.
§All types of connective tissue cells present.
(Majority are fibroblasts and macropahges)
§Collagen, elastic, and reticular fibers present.
§In certain organs (intestine) and in certain disease
conditions, numerous lymphocytes may be present.
99
100Loose connective tissue
(areolar tissue)
(areolar tissue)
101
102
(areolar tissue)
(areolar tissue)
103
Loose connective tissue
(areolar tissue)
Loose connective tissue
(areolar tissue)
§Reticular tissue: a specialized loose connective
tissue with reticular cells that form a fine matrix
of reticular fibers. Provides a structural
framework for hematopoietic organs such as
bone marrow and spleen.
§Reticular tissue is characterized by abundant
fibers of type III collagen forming a delicate
network that supports various types of cells. This
collagen is also known as reticulin and is
produced by modified fibroblasts often called
reticular cells that remain associated with and
partially cover the fibers.
§Reticular tissues have a high cellular content.104
tissue with reticular cells that form a fine matrix
of reticular fibers. Provides a structural
framework for hematopoietic organs such as
bone marrow and spleen.
§Reticular tissue is characterized by abundant
fibers of type III collagen forming a delicate
network that supports various types of cells. This
collagen is also known as reticulin and is
produced by modified fibroblasts often called
reticular cells that remain associated with and
partially cover the fibers.
§Reticular tissues have a high cellular content.104
Reticular tissue
105
105
Collagen bundles and Reticular cell processes of the Lymph Node, 200x
106
106
§Dense connective tissue
§Dense connective tissue has similar components
as loose connective tissue, but with fewer cells,
mostly fibroblasts, and a clear predominance of
bundled type I collagen fibers over ground
substance.
§Less flexible and more resistant to stress
§When collagen bundles are present without
apparent orientation, called dense irregular
connective tissue.
§When oriented in parallel arrays, called dense
regular connective tissue.
107
§Dense connective tissue has similar components
as loose connective tissue, but with fewer cells,
mostly fibroblasts, and a clear predominance of
bundled type I collagen fibers over ground
substance.
§Less flexible and more resistant to stress
§When collagen bundles are present without
apparent orientation, called dense irregular
connective tissue.
§When oriented in parallel arrays, called dense
regular connective tissue.
107
108
109
Dense regular connective tissue Dense irregular connective tissue
Dense regular connective tissue Dense irregular connective tissue
110
111
Dense regular connective tissue Loose connective tissue
Dense regular connective tissue Loose connective tissue
§The best examples of dense regular connective
tissue are the very strong and flexible tendons,
cords connecting muscles to bones; aponeuroses,
which are sheetlike tendons; and ligaments,
bands or sheets that hold together components of
the skeletal system.
§On their outer surface tendons and ligaments
have a layer of dense irregular connective tissue.
112
tissue are the very strong and flexible tendons,
cords connecting muscles to bones; aponeuroses,
which are sheetlike tendons; and ligaments,
bands or sheets that hold together components of
the skeletal system.
§On their outer surface tendons and ligaments
have a layer of dense irregular connective tissue.
112
§Elastic connective tissue: is a modified dense
connective tissue that contains numerous elastic
fibers in addition to collagen fibers, which allows
the tissue to return to its original length after
stretching.
113
connective tissue that contains numerous elastic
fibers in addition to collagen fibers, which allows
the tissue to return to its original length after
stretching.
113
D: Dense irregular
connective tissue
L: Loose
connective tissue
114
connective tissue
L: Loose
connective tissue
114
§Loose Connective Tissue: The major function of
the loose connective tissue is to serve as a
supporting matrix for the blood vessels,
lymphatic vessels, nerves, muscle fibers, organs,
and the skin.
§Dense Connective Tissue: Dense connective
tissue produces tendon and ligaments by forming
strong, rope-like structures.
115
the loose connective tissue is to serve as a
supporting matrix for the blood vessels,
lymphatic vessels, nerves, muscle fibers, organs,
and the skin.
§Dense Connective Tissue: Dense connective
tissue produces tendon and ligaments by forming
strong, rope-like structures.
115
ØMucous tissue
§Mucoid (or mucous) connective tissue is the
principal component of the fetal umbilical cord,
where it is referred to as Wharton’s jelly. With
abundant ground substance composed chiefly of
hyaluronan, mucoid tissue is gelatinous, with
sparse collagen fibers and scattered fibroblasts.
116Wharton's jelly is a gelatinous substance within the umbilical cord.
§Mucoid (or mucous) connective tissue is the
principal component of the fetal umbilical cord,
where it is referred to as Wharton’s jelly. With
abundant ground substance composed chiefly of
hyaluronan, mucoid tissue is gelatinous, with
sparse collagen fibers and scattered fibroblasts.
116Wharton's jelly is a gelatinous substance within the umbilical cord.
117Mucoid tissue
Lab Quiz
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123
6.
6.
124
7. Identify the following cell
Answer:
Next slide
7. Identify the following cell
Answer:
Next slide
125
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