Cell Adhesion & ECM - Student Notes PDF

Summary

This document provides lecture notes on cell adhesion and the extracellular matrix. It covers various types of cell junctions (occluding, anchoring, communicating), molecular components, and functions of the extracellular matrix. The notes also discuss cell-cell and cell-ECM interactions.

Full Transcript

Cell Adhesion and the
Extracellular Matrix
 Contact
Karron J. James, Ph.D.
Professor, Dept. Biochemistry, Cell Biology &
Genetics
Office: GB6, Block B
Email: [email protected]
Phone 484-8900 ext 1041
Office hours: Mon-Fri, by appointment
Goal MCB.16: Understand the significance of cell
adhesion and the extracellular matrix to maintain the
integrity of tissues and organs

Learning objectives
Given a clinical or research vignette, scenario, table, graph, or
diagram, students should be able to:

MCB.16.1. Determine the type of cell-cell and/or cell-matrix
interaction important for the normal function of a tissue.
MCB.16.2. Recognize the molecular components of cell-cell
and cell-matrix interactions.
MCB.16.3. Describe the importance of matrix
metalloproteinases in regulating cell adhesion.
MCB.16.4. Differentiate the functions of extracellular matrix
components, with emphasis on collagen, laminin, elastic
fibers, fibrinogen, fibronectin, glycosaminoglycans, and
proteoglycans.
 Reading assignment
Alberts, B. et al. (2002). Molecular Biology of the Cell. 4ed. New York: Garland Science.

Chapter. 19:
Cell Junctions
Occluding Junctions Form a Selective Permeability Barrier Across Epithelial Cell Sheets
Anchoring Junctions Connect the Cytoskeleton of a Cell Either to the Cytoskeleton of Its Neighbors or to the Extracellular Matrix
Adherens Junctions Connect Bundles of Actin Filaments from Cell to Cell
Desmosomes Connect Intermediate Filaments from Cell to Cell
Anchoring Junctions Formed by Integrins Bind Cells to the Extracellular Matrix: Focal Adhesions and Hemidesmosomes
Gap Junctions Allow Small Molecules to Pass Directly from Cell to Cell
Gap Junctions Have Diverse Functions
Cell-Cell Adhesion
Cadherins Mediate Ca2+-dependent Cell-Cell Adhesion
Selectins Mediate Transient Cell-Cell Adhesions in the Bloodstream
Members of the Immunoglobulin Superfamily of Proteins Mediate Ca2+-independent Cell-Cell Adhesion (1st paragraph)
Integrins (first 2 paragraphs and Summary)
The Extracellular Matrix of Animals
Glycosaminoglycan (GAG) Chains Occupy Large Amounts of Space and Form Hydrated Gels (first paragraph)
Collagens Are the Major Proteins of the Extracellular Matrix (1st paragraph)
Elastin Gives Tissues Their Elasticity (first 2 paragraphs)
Fibronectin Exists in Both Soluble and Fibrillar Forms (1st paragraph)
Basal Laminae Are Composed Mainly of Type IV Collagen, Laminin, Nidogen, and a Heparan Sulfate Proteoglycan (first 3 paragraphs)
The Extracellular Matrix Can Influence Cell Shape, Cell Survival, and Cell Proliferation
The Controlled Degradation of Matrix Components Helps Cells Migrate (first 2 paragraphs, section Summary)
Goal MCB.16: Understand the significance of cell
adhesion and the extracellular matrix to maintain the
integrity of tissues and organs

Learning objectives
Given a clinical or research vignette, scenario, table, graph, or
diagram, students should be able to:

MCB.16.1. Determine the type of cell-cell and/or cell-matrix
interaction important for the normal function of a tissue.
MCB.16.2. Recognize the molecular components of cell-cell
and cell-matrix interactions.
MCB.16.3. Describe the importance of matrix
metalloproteinases in regulating cell adhesion.
MCB.16.4. Differentiate the functions of extracellular matrix
components, with emphasis on collagen, laminin, elastic
fibers, fibrinogen, fibronectin, glycosaminoglycans, and
proteoglycans.
 Cells to Tissues
Epithelia line free surfaces of
the body (eg. skin), body
cavities (eg. small intestines),
outer surface of internal organs
(eg. heart) From Fig 19-8 in Lodish et al. 6ed.

Functions: barrier, absorption,
secretion,…
Cells have apical, lateral, basal
surfaces

LATERAL
Underlying: basal lamina
(basement membrane)
Connective tissue
See Fig 19-13. Alberts.
 Basic cell adhesion questions to
answer
Why do cells adhere?

To what do cells adhere?

Note: some cell types not adhesive at any time
during their life span
 Junctions mediate epithelial cell
interactions
Mediate cell-cell and
cell-ECM adhesion

Regulate cell polarity

Involved in intercellular
communication

See Fig. 19-19. Alberts.
 3 main classes of junctions mediate
interactions between epithelial cells

1. Anchoring

2. Occluding

3. Communicating

www.proprofs.com
 1. Anchoring Junctions mediate cell-
cell, cell-ECM adhesion

Anchoring junctions attach cells to each other
or to the extracellular matrix

Types of anchoring junctions include:
a) Adherens junction
b) Desmosome
c) Hemidesmosome
d) Focal contact
 1. Anchoring Junctions
a) Adherens Junction (Zonula adherens)

Found near apical surface in
epithelial cell layer

Function: cell-cell adhesion

Adhesion molecules:
– Cadherins primarily
responsible for adhesion

See Fig 19-9. Alberts.
Adherens junction (Zonula adherens)

https://www.mechanobio.info/development/
Cross-section of a blastocyst (no inner cell mass
shown)
Adherens junctions help maintain connection
between adjacent cells.
Adherens junction (Zonula adherens)

Fig. 5 from Yeatman, T.J. Nature Reviews Cancer volume 4, pages 470–480 (2004)
 Adherens junction (Zonula adherens)

Associated with ________
(component of the
cytoskeleton)

Stabilised by desmosomes;
interdependence in
epithelia if both present
– Helps resist mechanical
stress, maintain tissue
integrity See Fig. 19-19. Alberts.
Pause for
Retrieval
Practice

https://www.bookwidgets.c
om/play/MHbYS4P7-
iQAFq1lyygAAA/NENHTN9/a
dherens-
juncti?teacher_id=4837012
212285440
Pause for
Retrieval
Practice

https://www.bookwidgets.
com/play/Kh6_xA6w-
iQAFYA42ygAAA/QEM3RQ
N/sec-or-non-
sec?teacher_id=48370122
12285440
 1. Anchoring Junction
b) Desmosome (Macula adherens)
Located beneath adherens
junction in epithelium

Provides strong cell-cell
adhesion

Adhesion molecule:
– Desmosomal cadherins, eg.
desmoglein, desmocollin
See Fig. 19-19. Alberts.
Binds which component of the
cytoskeleton?
 Desmosome (Macula adherens)

Strongly adhesive

Most numerous in
tissues subjected to
significant mechanical
stress, eg. epithelia of
the skin and mucous
membranes;
myocardium
– Found in simple epithelia, See Fig. 19-19. Alberts.

non-epithelial cells
Pemphigus vulgaris

Robbins Basic Pathology ©2018. Fig. 24.10
 Epidermolysis Bullosa simplex

https://www.aad.org/public/diseases/a-z/epidermolysis-bullosa-overview
https://www.nhs.uk/conditions/epidermolysis-bullosa/

https://www.nhs.uk/conditions/epidermolysis-bullosa/
 Epithelial IFs form strong
attachment sites at cell surface

http://163.178.103.176/Fisiologia/general/celulas/Membrane%20Structure%20and%20Function.htm
Keratins are IFs found in cytosol of
epithelial cells

Interconnect desmosomes in
neighbouring cells to help stabilize
epithelial sheets
– Desmosome: adhesive junction that
helps keep adjacent cells joined
together

Associated with strong adhesion
between epithelial cells and
underlying extracellular matrix
Pause for
Retrieval
Practice
https://www.bookw
idgets.com/play/M
p7D2a5o-
iQAFqAf8ygAAA/LE
M82LG/cytoskeletal
-at
 1. Anchoring Junction
c) Hemidesmosome
Common in epithelia
subject to abrasion,
mechanical forces, eg. skin,
mucosa of oral cavity,
cornea, rectum
Function: strong adhesion
between basal surface of
cell and underlying ECM
– Helps resist mechanical
stress
See Fig. 19-19. Alberts.
Major adhesion molecules:
integrins
 Hemidesmosome

Within hemidesmosome,
integrins interact with laminin
and collagen in basal lamina
These filaments, in turn,
interact with other collagen
fibrils in underlying connective
tissue
Cytoplasmic attachment to
____________________
Contacts must be dynamic, eg.
during cell migration
See Fig 19-13. Alberts.
Bullous pemphigoid

Robbins Basic Pathology ©2018. Fig. 24.12
 Epithelial IFs form strong
attachment sites at cell surface

http://163.178.103.176/Fisiologia/general/celulas/Membrane%20Structure%20and%20Function.htm
Keratins are IFs found in cytosol of
epithelial cells

Interconnect desmosomes in
neighbouring cells to help stabilize
epithelial sheets
– Desmosome: adhesive junction that
helps keep adjacent cells joined
together

Associated with strong adhesion
between epithelial cells and
underlying extracellular matrix
 1. Anchoring Junction
d) Focal contacts
Found between a cell’s
basal surface and the ECM

Function: adhesion of cell
to substratum (ECM)

Major adhesion molecules:
_______________

Cytoplasmic attachment to
actin
 RECALL:
Cells migrate along extracellular
matrix via actin
Necessary during
embryogenesis, movement of
axons in response to growth
factors, movement of white
blood cells toward site of
infection, phagocytosis

Leading edge temporarily
attaches to extracellular matrix
Fig 4.8 from Lippincott's Illustrated Reviews: Cell and Molecular
Biology, 2e, 2019
Pause for
Retrieval
Practice

https://www.bookw
idgets.com/play/7w
q3O-56-
iQAFpe0jOgAAA/FE
94XFD/hemidesmos
omes
 Which of the following junctions mediate(s)
adhesion between cells and which mediate(s)
adhesion between cells and the extracellular matrix?

Adherens junction

Desmosome

Focal contact

Hemidesmosome
 2. Occluding Junction
Tight Junction (Zonula occludens)

Forms seal, at PM of adjacent
cells, that separates luminal
surface (apical) from
intercellular (lateral;
paracellular) space and basal
surface
Main TM proteins = claudins
and occludin
Scaffold of ZO proteins link TM Fig 5.16. Ross & Pawlina. (2011) Histology: A Text and Atlas. 6ed.
proteins to _______________
(component of the
cytoskeleton)
 Tight Junction (Zonula occludens)
Component of junctional
complex closest to apical
surface
– Eg. in blastocyst, epithelia of
intestines and airways

Functions in epithelial cells:
– Forms seal between adjacent
epithelial cells
– Regulates selective diffusion of
hydrophilic molecules through
paracellular space
– Restricts migration of membrane
proteins See Fig. 19-19. Alberts.
– Maintains cell polarity
Tight Junction (Zonula occludens)

https://www.mechanobio.info/development/
Cross-section of a blastocyst (no inner cell mass
shown)
Tight junctions seal the space between adjacent
cells.
 3. Communicating Junction
Gap Junction
Hydrophilic channel found on
most cells
– Allows direct exchange of small
metabolites and signalling molecules
between adjacent cells
Channel formed by 2 connexons
(hemi-channels) that bridge space
between adjacent plasma
membranes
– Connexons are composed of
individual connexin proteins
Function: intercellular
communication
© 2012 Pearson Education Inc.
 Gap Junction
Cell-cell communication
– Electrical coupling in
cardiac muscle
– Transfer of small
metabolites between
epithelial cells

See Fig. 19-19. Alberts.
Importance of Gap Junctions

gfmer.ch
Cell Adhesion Molecules mediate interactions
within anchoring junctions

Extracellular and
cytoplasmic domains

Homophilic and

Fig 5.18, Ross & Pawlina. Histology, A Text and Atlas. 6ed.
heterophilic adhesive
molecules
Goal MCB.16: Understand the significance of cell
adhesion and the extracellular matrix to maintain the
integrity of tissues and organs

Learning objectives
Given a clinical or research vignette, scenario, table, graph, or
diagram, students should be able to:

MCB.16.1. Determine the type of cell-cell and/or cell-matrix
interaction important for the normal function of a tissue.
MCB.16.2. Recognize the molecular components of cell-cell
and cell-matrix interactions.
MCB.16.3. Describe the importance of matrix
metalloproteinases in regulating cell adhesion.
MCB.16.4. Differentiate the functions of extracellular matrix
components, with emphasis on collagen, laminin, elastic
fibers, fibrinogen, fibronectin, glycosaminoglycans, and
proteoglycans.
4 Major Families of Cellular Adhesion
Molecules (CAMs)
1. Cadherin
2. Immunoglobulin
3. Integrin

Fig 5.18, Ross & Pawlina. Histology, A Text and Atlas. 6ed.
4. Selectin
 1. Cadherins—most common mediator
of interactions in AJ’s

Primary family of CAM in epithelial
cells, usually homophilic
Adhesion: cell-cell
Bind catenins, which bind actin
– Binding necessary for cadherin
function
Disruption of cadherin/β-catenin
complex = normal part of cell
turnover
Ca2+-dependent
See Fig 19-29. Alberts.
 2. Immunoglobulin Super Family
Homo-, heterophilic
– Mainly cell-cell, incl. epithelial
cells, leukocytes, endothelial
cells
– IgSF interact with self or
integrins

Adhesion molecules include
ICAM and VCAM

Cytoskeleton partners: actin,
From Fig. 2, Ebnet, K. et al. J. Cell Sci, 2004 117: 19-29
actin-binding proteins
 3. Integrins

Adhesion: cell-cell, cell-ECM

A single cell type (eg.
platelets) can express
multiple integrins

Cytoskeleton partners:
1.actin
2.intermediate filaments Fig 19-56. Alberts. 6ed.
 4. Selectins
Heterophilic, cell-cell binding in the
bloodstream
Bind carbohydrates
L, E, P-selectins
– Function restricted to vascular system
Cytoskeleton partner: actin
Major role in initiating adhesion of
leukocytes and platelets to
endothelial cells during
inflammation and hemostasis
Pause for
Retrieval
Practice

https://www.bookw
idgets.com/play/AYl
JG88Q-
iQAFixxxOgAAA/TE9
XBTE/tj-gj-cams
Goal MCB.16: Understand the significance of cell
adhesion and the extracellular matrix to maintain the
integrity of tissues and organs

Learning objectives
Given a clinical or research vignette, scenario, table, graph, or
diagram, students should be able to:

MCB.16.1. Determine the type of cell-cell and/or cell-matrix
interaction important for the normal function of a tissue.
MCB.16.2. Recognize the molecular components of cell-cell
and cell-matrix interactions.
MCB.16.3. Describe the importance of matrix
metalloproteinases in regulating cell adhesion.
MCB.16.4. Differentiate the functions of extracellular matrix
components, with emphasis on collagen, laminin, elastic
fibers, fibrinogen, fibronectin, glycosaminoglycans, and
proteoglycans.
Cell Adhesion Regulates Cell Proliferation

Normal epithelial cells exhibit
anchorage-dependence for
proliferation

Presence of bound integrins
may inhibit activation of
apoptosis genes

Detached epithelial cells
undergo programmed cell
death
Goodman, S.R. (2008). Medical Cell Biology. 3rd ed. Academic Press
 MMPs degrade the ECM
Matrix metalloproteinases (metalloproteases)
– Collagenases, gelatinase, elastases, etc.

Regulate cell differentiation, proliferation,
wound healing, bone remodelling, etc.
– Consequences of lack of regulation?
 Cell Adhesion Functions—Summary

Maintain epithelial barrier, cell polarity
– Important that apical surfaces (eg. in intestines) be
non-adhesive

Regulation of cell proliferation

Embryonic development
Adhesion helps maintain cell barriers
and polarity

Academic Press
Goodman, S.R. (2008). Medical Cell Biology. 3rd ed.
Fig 6-20
http://www.siumed.edu/~dking2/intro/IN008b1.htm
Summary—Major CAM Gene Families
Molecules that mediate adhesion: CAMs
-Cell adhesion molecules or Adhesion receptors

Goodman, S.R. (2008). Medical Cell Biology. 3rd ed. Academic Press
Goal MCB.16: Understand the significance of cell
adhesion and the extracellular matrix to maintain the
integrity of tissues and organs

Learning objectives
Given a clinical or research vignette, scenario, table, graph, or
diagram, students should be able to:

MCB.16.1. Determine the type of cell-cell and/or cell-matrix
interaction important for the normal function of a tissue.
MCB.16.2. Recognize the molecular components of cell-cell
and cell-matrix interactions.
MCB.16.3. Describe the importance of matrix
metalloproteinases in regulating cell adhesion.
MCB.16.4. Differentiate the functions of extracellular matrix
components, with emphasis on collagen, laminin, elastic
fibers, fibrinogen, fibronectin, glycosaminoglycans, and
proteoglycans.
 Extracellular Matrix
Fibrous protein secreted by
cells, especially fibroblasts
Functions: structure—
provides shape, strength,
elasticity to tissues, acts as
substratum for adhesion;
signal transduction;
reservoir for growth

jpkc.scu.edu.cn
factors
Amount and character
depends on tissue type
Collagen family = very
abundant component
protein
Robbins and Cotran Pathologic Basis of Disease. 8ed. Saunders.
en.wikipedia.org
https://lovetotherescue.org/no-small-wonder/
 Collagen—Very Abundant ECM Protein

Provides tensile strength and
stability to connective tissue

Helps impart structure to
bone, cartilage, tendons,
skin,…

See Fig 19-44. Alberts.
 sciencephoto.com
Importance of Collagen
Osteogenesis imperfecta
http://www.oif.org/site/PageServer?pagena
me=fastfacts
Ehlers-Danlos syndrome
(Cutis hyperelastica)

http://sugarchurch.tumblr.com/post/7911575008/the-elastic-
skin-man-james-morris-was-featured
 Basement Membrane
Highly cross-linked layer of ECM
that anchors all epithelial cells
to underlying connective tissue
Compartmentalises tissues
Physical barrier to
macromolecules
Influences cell shape and
polarity
Connected to overlying cells
through interaction with
integrins July 2013

– Type IV collagen, laminin
 Laminin

Major component of the
basement membrane

Interacts with other ECM
components (type IV
collagen, heparan sulphate,
etc) and self

Helps mediate See Fig 19-58. Alberts.

hemidesmosomal
attachment
 Glycosaminoglycans

GAGs = long carbohydrate chains (polysaccharides)

Anionic groups (eg. COO-, SO42-) confer strong negative charge
– Attract cations so have osmotic potential

GAGs remain extended (not compact) and hold H2O
– Able to resist compressive forces (eg. knee joint)

Hyaluronic acid = non-sulphated GAG
– Helps cartilage resist compression without inhibiting flexibility

Include chondroitin sulfate, dermatan sulfate, keratan sulfate,
heparan sulfate
 Proteoglycans

http://www.siumed.edu/~dking2/intro/IN008b1.htm
Proteoglycans =
polypeptide core
covalently linked to GAG

Osmotically active, attract
H20, resist compression

Most GAGs, except for
hyaluronic acid, occur as
proteoglycans

Form a “ground
substance” in which other
matrix components are
embedded
intranet.tdmu.edu.ua
 Elastic Fibres

Allow recoil of stretched tissue;
provide elasticity

Form network with interwoven
collagen

marfan-association.org.uk
Predominant in which tissue types?

Elastin and fibrillin = major protein
components of elastic fibres Boy with Marfan syndrome.
Mutation in fibrillin gene.
– Central core of elastin surrounded by
fibrillin microfibrils
 Fibronectin
Adhesion glycoprotein that
occurs as fibrils in connective
tissue

Attaches cells to other ECM
components, commonly via
integrins

Has binding affinity for other
ECM components (eg.
collagen, fibrin), specific cell
surface receptors, self
 Fibrinogen

Fibrinogen = a protein
component of blood clots
that binds cells and other
ECM components

ch.ic.ac.uk
Cleavage of fibrinogen by
thrombin (enzyme) → fibrin RBCs trapped by fibrin

Binds integrins, fibronectin
Goal MCB.16: Understand the significance of cell
adhesion and the extracellular matrix to maintain the
integrity of tissues and organs

Learning objectives
Given a clinical or research vignette, scenario, table, graph, or
diagram, students should be able to:

MCB.16.1. Determine the type of cell-cell and/or cell-matrix
interaction important for the normal function of a tissue.
MCB.16.2. Recognize the molecular components of cell-cell
and cell-matrix interactions.
MCB.16.3. Describe the importance of matrix
metalloproteinases in regulating cell adhesion.
MCB.16.4. Differentiate the functions of extracellular matrix
components, with emphasis on collagen, laminin, elastic
fibers, fibrinogen, fibronectin, glycosaminoglycans, and
proteoglycans.
Practice Questions
Navigate to this link or the QR code
to test your recall and
understanding of concepts learned
in Goal 16:
https://forms.office.com/r/eG
MuiGnGJD