1
CHAPTER 20
CELLULAR COMMUNITIES: TISSUES, STEM CELLS, AND CANCER
( 2009 Garland Science Publishing
Extracellular Matrix and Connective Tissues
20-1Both multicellular plants and animals have
_____________________.
(a)cells capable of locomotion(b)cells with cell walls(c)a
cytoskeleton composed of actin filaments, microtubules, and
intermediate filaments(d)tissues composed of multiple different
cell types20-2For each of the following sentences, fill in the
blanks with the best word or phrase selected from the list below.
Not all words or phrases will be used; use each word or phrase only
once.Plants are sedentary and thus their cells have different needs
from those of cells found in motile animals. For example, in plant
cells, __________________ generates the turgor pressure that drives
cell growth. Plants have cell walls, but cell growth is possible in
the developing tissue because the __________________ cell walls are
expandable. The __________________ cell walls are deposited once
growth has stopped, and can be specially adapted to their function.
Fibers made from __________________ (the most abundant organic
macromolecule on Earth) are found in plant cell walls, and provide
tensile strength. In woody tissues, the __________________ in the
cell walls makes the tissue more rigid and waterproof. The
deposition of the cell wall is directed by the __________________
cytoskeleton.celluloseligninsecondarycollagenmembranousmicrotubuleepidermisosmosistertiarynuclearlaminactinpectinprimary20-3Which
of the following statements about plant cell walls is true?
(a)The microtubule cytoskeleton directs the orientation in which
cellulose is deposited in the cell wall.
(b)The molecular components of the cell wall are the same in all
plant tissues.
(c)Because plant cell walls are rigid, they are not deposited
until the cell has stopped growing.
(d)The cellulose found in cell walls is produced as a precursor
molecule in the cell and delivered to the extracellular space by
exocytosis.
20-4Indicate the direction in which the plant cell shown in
Figure Q20-4 is most likely to grow. The black lines indicate the
direction of the cellulose microfibrils around the cell. Explain
your answer.
Figure Q20-4
20-5Which of the following molecules are not found in
plants?(a)cellulose
(b)lignin
(c)collagen
(d)pectin
20-6Indicate whether the following molecules are found in
plants, animals, or both.A.intermediate filamentsB.cell
wallsC.microtubulesD.celluloseE.collagen20-7Which of the following
statements about animal connective tissues is true?
(a)Enzymes embedded in the plasma membrane synthesize the
collagen in the extracellular matrix extracellularly.
(b)In connective tissue, the intermediate filaments within the
cells are important for carrying the mechanical load.
(c)Cells can attach to a collagen matrix by using fibronectin,
an integral membrane protein.
(d)Proteoglycans can resist compression in the extracellular
matrix.
20-8A major distinction between the connective tissues in an
animal and other main tissue types such as epithelium, nervous
tissue, or muscle is _______________.
(a)the ability of connective tissue cells such as fibroblasts to
change shape(b)the amount of extracellular matrix in connective
tissues(c)the ability of connective tissues to withstand mechanical
stresses(d)the numerous connections that connective tissue cells
make with each other20-9What are the main structures providing
tensile strength in the following?
A.animal connective tissueB.animal epidermisC.plant cell
walls20-10Do you agree or disagree with the following statement?
Explain your answer.Like many other extracellular proteins, newly
synthesized collagen molecules undergo post-translational
processing inside the cell to convert them into their mature form;
they are then secreted and self-assemble into fibrils in the
extracellular space.20-11Fibroblasts organize the collagen of the
extracellular matrix by ______________.
(a)cutting and rejoining the fibrils(b)processing procollagen
into collagen(c)twisting fibrils together to make ropelike
fibers(d)pulling the collagen into sheets or cables after it has
been secreted20-12Match the four lettered lines in Figure Q20-12
with the appropriate numbered label.
Figure Q20-121. integrin
2. actin
3. collagen
4. fibronectin
20-13Which of the following statements about integrins is
false?(a)Integrins use adaptor proteins to interact with the
microtubule cytoskeleton.(b)Integrins can switch to an activated
state by binding to an extracellular matrix molecule.(c)Integrins
can switch to an activated state by binding to an intracellular
protein.(d)An activated integrin molecule takes on an extended
conformation.20-14Proteoglycans in the extracellular matrix of
animal tissues ________________.
(a)chiefly provide tensile strength(b)allow cartilage to resist
compression(c)are linked to microtubules through the plasma
membrane(d)are polysaccharides composed of glucose
subunits20-15Which of the following statements is
false?(a)Proteoglycans can act as filters to regulate which
molecules pass through the extracellular medium.(b)The negative
charge associated with proteoglycans attracts cations, which cause
water to be sucked into the extracellular matrix.(c)Proteoglycans
are a major component of compact connective tissues but are
relatively unimportant in watery tissues such as the jellylike
substance in the interior of the eye.(d)Glycosaminoglycans are
components of proteoglycan.Epithelial Sheets and Cell Junctions
20-16For each of the following sentences, fill in the blanks
with the best word or phrase selected from the list below. Not all
words or phrases will be used; use each word or phrase only
once.
__________________ join the intermediate filaments in one cell
to those in the neighboring cell. __________________ anchor
intermediate filaments in a cell to the extracellular matrix.
__________________ involve cadherin connections between neighboring
cells and are anchorage sites for actin filaments.
__________________ permit the passage of small molecules from one
cell to its adjacent cell. __________________ prevent the leakage
of molecules between adjacent cells.adherens junctionsgap
junctionshighway junctionsdesmosomeshemidesmosomestight
junctions20-17Label the five different types of cellcell junction
shown in Figure Q21-17, and identify the apical and basal surfaces
of the epithelium.
Figure Q20-17
20-18Match the molecules (list 1) with the cell structures in
which they are involved (list 2). A cell structure may be listed
more or less than once.
20-19A basal lamina ______________________.
(a)is a thin layer of connective tissue cells and matrix
underlying an epithelium
(b)is a thin layer of extracellular matrix underlying an
epithelium
(c)is attached to the apical surface of an epithelium
(d)separates epithelial cells from each other
20-20Tight junctions ______________________.
(a)allow small water-soluble molecules to pass from cell to
cell
(b)interact with the intermediate filaments inside the cell
(c)are formed from claudins and occludins
(d)are found in cells in connective tissues
20-21Adherens junctions ______________________.
(a)can be used to bend epithelial sheets into tubes
(b)are most often found at the basal surface of cells
(c)are found only in adult tissues
(d)involve fibronectin and integrin interactions
20-22At desmosomes, cadherin molecules are connected to
________________.
(a)actin filaments
(b)intermediate filaments
(c)microtubules
(d)gap junctions
20-23Hemidesmosomes are important for
______________________.
(a)tubulation of epithelial sheets
(b)linkages to glycosaminoglycans
(c)forming the basal lamina
(d)attaching epithelial cells to the extracellular matrix
20-24Which of the following statements about gap junctions is
false?
(a)Gap junctions are made of connexons.
(b)Molecules up to 1000 daltons in molecular weight can move
across gap junctions.
(c)Because gap junctions do not allow ions to pass through, they
are not used for electrically coupling cells.
(d)Gap junctions can close in response to extracellular
signals.
20-25Which type of junction involves a connection to the actin
cytoskeleton?
(a)adherens junctions
(b)desmosomes
(c)tight junctions
(d)gap junctions
20-26Which type of junction contributes the most to the
polarization of epithelial cells?
(a)adherens junctions
(b)desmosomes
(c)tight junctions
(d)gap junctions
20-27Cadherins ______________________.
(a)are used to transfer proteins from one cell to another
(b)mediate cellcell attachments through homophilic
interactions
(c)are abundant in the plant cell wall
(d)bind to collagen fibrils
20-28Plasmodesmata ______________________.
(a)permit small molecules to pass from one cell to another
(b)are found only in animal cells
(c)are closed by the neurotransmitter dopamine
(d)provide tensile strength
Tissue Maintenance and Renewal
20-29Match the appropriate cell type found in the mammalian skin
with the best description of its function.
20-30Name the three key mechanisms important for maintaining the
organization of cells into tissues.
20-31Place the following in order of their replacement times,
from shortest to longest.
A.epidermal cell
B.nerve cell
C.bone matrix
D.red blood cell
E.cell lining the gut
20-32Cells that are terminally differentiated
______________________.
(a)will undergo apoptosis within a few days
(b)can no longer undergo cell division
(c)are unable to move
(d)no longer produce RNAs
20-33An adult hemopoietic stem cell found in the bone marrow
______________________.
(a)will occasionally produce epidermal cells when necessary
(b)can produce only red blood cells
(c)can undergo self-renewing divisions for the lifetime of a
healthy animal
(d)will express all the same transcription factors as those
found in an unfertilized egg
20-34Mouse embryonic stem (ES) cells ______________________.
(a)can only be produced through therapeutic cloning
(b)can give rise to all tissues and cell types in the body
except germ cells
(c)can be implanted in foster mothers to produce cloned cows and
other animals
(d)come from the inner cell mass of early embryos
20-35How do reproductive cloning and therapeutic cloning
differ?
(a)The DNA in the nucleus of cells produced for therapeutic
cloning is genetically identical to the donor genome, whereas in
cells produced for reproductive cloning it is not.
(b)Reproductive cloning requires a supply of fertilized donor
egg cells, whereas therapeutic cloning requires unfertilized egg
cells.
(c)Therapeutic cloning requires nuclear transplantation, whereas
reproductive cloning does not.
(d)Embryos are placed into foster mothers during reproductive
cloning but not during therapeutic cloning.
20-36Induced pluripotent stem (iPS) cells
______________________.
(a)are created by the expression of a set of key genes in cells
derived from adult tissues so that these cells can differentiate
into a variety of cell types(b)require a supply of donor egg cells,
such as embryonic stem cells(c)can differentiate into a greater
variety of adult tissues than embryonic stem cells(d)are created by
nuclear transplantation20-37A stem cell divides into two daughter
cells. One of the daughter cells goes on to become a terminally
differentiated cell. What is the typical fate of the other daughter
cell?
20-38Your friend is a pioneer in ES cell research. In her
research, she uses an ES cell line that originated from an inbred
strain of laboratory mice called FG426. She has just figured out
methods that allow her to grow an entire liver from an ES cell and
has successfully grown 10 livers. She demonstrates that the newly
grown livers are functional by successfully transplanting one of
the new livers into a FG426 laboratory mouse.
You are particularly excited about this, because you have a sick
pet mouse, Squeaky. You are very attached to Squeaky, as you found
him when you were out camping in New Hampshire. Unfortunately,
Squeaky has developed liver disease and will not live much longer
without a liver transplant. After you see your friend on TV talking
about her new method for growing mouse livers, you immediately grab
your cell phone to ask her whether Squeaky could have one of the
newly grown livers. Just as you are about to dial your friend, you
remember something you learned in cell biology and realize that
instead, you should ask your friend about possibly using
therapeutic cloning for Squeakys benefit.
A.Why do you think that one of the newly grown livers may not
work in Squeaky?
B.Explain why therapeutic cloning would solve this problem.
Cancer
20-39A malignant tumor is more dangerous than a benign tumor
because ______________________.
(a)its cells are proliferating faster
(b)it causes neighboring cells to mutate
(c)its cells attack and phagocytose neighboring normal tissue
cells
(d)its cells invade other tissues
20-40Which of the following statements about cancer is
false?(a)Viruses cause some cancers.(b)Tobacco use is responsible
for more than 20% of all cancer deaths.(c)A mutation in even a
single cancer-critical gene is sufficient to convert a normal cell
into a cancer cell.(d)Chemical carcinogens cause cancer by changing
the nucleotide sequence of DNA.20-41Cancer is a disease of enhanced
proliferation and cell survival. DNA repair mechanisms are normally
important for cell survival. When a cell senses DNA damage, the
cell cycle is inhibited until the damage is fixed. Given the
importance of DNA repair mechanisms, how can their failure can lead
to the production of cancer cells with a competitive advantage over
normal cells?20-42Which of the following genetic changes cannot
convert a proto-oncogene into an oncogene?
(a)A mutation that introduces a stop codon immediately after the
codon for the initiator methionine.
(b)A mutation within the coding sequence that makes the protein
hyperactive.
(c)An amplification of the number of copies of the
proto-oncogene, causing overproduction of the normal protein.
(d)A mutation in the promoter of the proto-oncogene, causing the
normal protein to be transcribed and translated at an abnormally
high level.
20-43Which of the following statements about tumor suppressor
genes is false?
(a)Gene amplification of a tumor suppressor gene is less
dangerous than gene amplification of a proto-oncogene.
(b)Cells with one functional copy of a tumor suppressor gene
will usually proliferate faster than normal cells.
(c)Inactivation of tumor suppressor genes leads to enhanced cell
survival and proliferation.
(d)Individuals with only one functional copy of a tumor
suppressor gene are more prone to cancer than individuals with two
functional copies of a tumor suppressor gene.
20-44A certain mutation in the receptor for epidermal growth
factor (EGF) causes the mutated receptor protein to send a positive
signal along the associated intracellular signaling pathway even
when the EGF ligand is not bound to it. This signal leads to
abnormal cell proliferation in the absence of growth factor. On the
basis of this information, would you class the gene for the EGF
receptor as a tumor suppressor gene or a potential oncogene?
Explain your answer.
20-45Ras is a GTP-binding protein that is often defective in
cancer cells. A signal from a growth factor through a receptor
tyrosine kinase often stimulates normal cells to divide. When the
receptor tyrosine kinase binds the growth factor, Ras is stimulated
to bind GTP. Ras in turn activates proteins that promote cell
proliferation. A common mutation in cancerous cells causes Ras to
behave as though it were bound to GTP all the time.
A.Why is this mutation advantageous to cancerous cells?
B.Your friend decides that the signaling pathway involving the
Ras protein is a good target for drug design, because the Ras
protein is often defective in cancer cells. Your friend designs a
drug that will turn off the receptor tyrosine kinase by preventing
it from dimerizing. Do you think that this drug will affect cells
that have a defective Ras protein that acts as if it were always
bound to GTP? Why or why not?
20-46People who inherit one copy of the Rb (retinoblastoma) gene
that is normal and one copy that is mutatedthat is, people who are
heterozygous for Rbhave a greatly increased risk of cancer.
Given this information, do you agree or disagree with the
following statement? Explain your answer.
The Rb mutation must have a dominant effect, which means that it
must result in an increase in Rb function. Thus, Rb in its mutant
form must be an oncogene.
20-47Figure Q20-47 shows a sequence of mutations that might
underlie the development of colorectal cancer. Explain why the loss
of p53 is advantageous to cancerous cells.
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2009-07-06T14:02:13+01:00 2009-07-06T14:02:13+01:00
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uuid:CB05872B6BC711DE913FA96064445201
uuid:CB05872C6BC711DE913FA96064445201
uuid:CB05872A6BC711DE913FA96064445201
uuid:CB0587296BC711DE913FA96064445201 209.999994 297.000002
Millimeters 1 False True Black Default Swatch Group 0 C=0 M=0 Y=0
K=0 CMYK PROCESS 0.000000 0.000000 0.000000 0.000000 C=0 M=0 Y=0
K=100 CMYK PROCESS 0.000000 0.000000 0.000000 100.000000 New Color
Swatch CMYK PROCESS 39.999996 0.000000 80.000000 0.000000 New Color
Swatch 2 CMYK PROCESS 18.000000 0.000000 47.000004 0.000000 New
Color Swatch 3 CMYK PROCESS 0.000000 0.000000 100.000000 0.000000
New Color Swatch 4 CMYK PROCESS 0.000000 0.000000 50.000000
0.000000 New Color Swatch 5 CMYK PROCESS 100.000000 0.000000
0.000000 0.000000 New Color Swatch 6 CMYK PROCESS 50.000000
0.000000 0.000000 0.000000 New Color Swatch 7 CMYK PROCESS
30.000002 0.000000 0.000000 0.000000 New Color Swatch 8 CMYK
PROCESS 0.000000 100.000000 100.000000 0.000000 New Color Swatch 9
CMYK PROCESS 0.000000 47.000004 42.999996 0.000000 New Color Swatch
10 CMYK PROCESS 0.000000 38.000000 19.999998 0.000000 New Color
Swatch 11 CMYK PROCESS 0.000000 55.000000 60.000004 50.000000 New
Color Swatch 12 CMYK PROCESS 30.000002 42.999996 47.000004 0.000000
New Color Swatch 13 CMYK PROCESS 6.000000 0.000000 6.000000
14.999998 New Color Swatch 14 CMYK PROCESS 6.000000 0.000000
6.000000 47.000004 New Color Swatch 15 CMYK PROCESS 0.000000
47.000004 100.000000 7.999998 New Color Swatch 16 CMYK PROCESS
100.000000 0.000000 80.000000 26.999998 New Color Swatch 17 CMYK
PROCESS 0.000000 34.000004 91.000000 0.000000 New Color Swatch 18
CMYK PROCESS 0.000000 30.000002 50.000000 0.000000 New Color Swatch
19 CMYK PROCESS 100.000000 72.000000 0.000000 0.000000 New Color
Swatch 20 CMYK PROCESS 50.000000 36.000000 0.000000 0.000000 New
Color Swatch 21 CMYK PROCESS 70.000000 100.000000 0.000000 0.000000
New Color Swatch 22 CMYK PROCESS 35.000004 50.000000 0.000000
0.000000 New Color Swatch 23 CMYK PROCESS 0.000000 100.000000
0.000000 0.000000 New Color Swatch 24 GRAY PROCESS 38 New Color
Swatch 25 GRAY PROCESS 76 New Color Swatch 26 GRAY PROCESS 127 New
Color Swatch 27 GRAY PROCESS 165 New Color Swatch 28 GRAY PROCESS
204 New Color Swatch 29 GRAY PROCESS 255
% &&end XMP packet
marker&&[{ai_metadata_stream_123}
/PUT AI11_PDFMark5[/Document1 dict begin /Metadata
{ai_metadata_stream_123} defcurrentdict end /BDC
AI11_PDFMark5%ADOEndClientInjection: PageSetup End
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11.4941 cv22.9497 11.9941 22.5503 12.0942 21.25 12.1943 cv19.9502
12.2944 3.4502 12.1943 2.5498 12.1943 cv1.6499 12.1943 0.75 11.6943
1.5498 10.8945 cv2.3501 10.0942 8.8501 3.29443 8.8501 3.29443
cvcpfalse sop0 0 0 1 [email protected] 7.39453 mo9.25 6.99414 9.9502
6.59424 10.8501 6.59424 cv11.75 6.59424 28.9497 6.59424 29.8501
6.59424 cv30.7505 6.59424 31.3501 7.49414 30.7505 8.09424 cv30.1499
8.69434 24.1499 15.0942 23.5503 15.5942 cv22.9497 16.0942 22.5503
16.1943 21.25 16.2944 cv19.9502 16.3945 3.4502 16.2944 2.5498
16.2944 cv1.6499 16.2944 0.75 15.7944 1.5498 14.9941 cv2.3501
14.1943 8.8501 7.39453 8.8501 7.39453 [email protected] 11.4941 mo9.25
11.0942 9.9502 10.6943 10.8501 10.6943 cv11.75 10.6943 28.9497
10.6943 29.8501 10.6943 cv30.7505 10.6943 31.3501 11.5942 30.7505
12.1943 cv30.1499 12.7944 24.1499 19.1943 23.5503 19.6943 cv22.9497
20.1943 22.5503 20.2944 21.25 20.3945 cv19.9502 20.4946 3.4502
20.3945 2.5498 20.3945 cv1.6499 20.3945 0.75 19.8945 1.5498 19.0942
cv2.3501 18.2944 8.8501 11.4941 8.8501 11.4941 [email protected] 15.5942
mo9.25 15.1943 9.9502 14.7944 10.8501 14.7944 cv11.75 14.7944
28.9497 14.7944 29.8501 14.7944 cv30.7505 14.7944 31.3501 15.6943
30.7505 16.2944 cv30.1499 16.8945 24.1499 23.2944 23.5503 23.7944
cv22.9497 24.2944 22.5503 24.394 21.25 24.4946 cv19.9502 24.5942
3.4502 24.4946 2.5498 24.4946 cv1.6499 24.4946 0.75 23.9946 1.5498
23.1948 cv2.3501 22.3945 8.8501 15.5942 8.8501 15.5942 [email protected]
19.6943 mo9.25 19.2944 9.9502 18.8945 10.8501 18.8945 cv11.75
18.8945 28.9497 18.8945 29.8501 18.8945 cv30.7505 18.8945 31.3501
19.7944 30.7505 20.3945 cv30.1499 20.9946 24.1499 27.394 23.5503
27.894 cv22.9497 28.394 22.5503 28.4946 21.25 28.5942 cv19.9502
28.6948 3.4502 28.5942 2.5498 28.5942 cv1.6499 28.5942 0.75 28.0942
1.5498 27.2944 cv2.3501 26.4946 8.8501 19.6943 8.8501 19.6943
cvcp@%ADOBeginClientInjection: EndPageContent "AI11EPS"userdict
/annotatepage 2 copy known {get exec}{pop pop}
ifelse%ADOEndClientInjection: EndPageContent
"AI11EPS"grestoregrestorepgrs%%PageTrailer%ADOBeginClientInjection:
PageTrailer Start "AI11EPS"[/EMC AI11_PDFMark5[/NamespacePop
AI11_PDFMark5%ADOEndClientInjection: PageTrailer Start
"AI11EPS"[[/CSA [/0 ]]] del_resAdobe_AGM_Image/pt
gxAdobe_CoolType_Core/pt get execAdobe_AGM_Core/pt gxcurrentdict
Adobe_AGM_Utils eq {end} if%%TrailerAdobe_AGM_Image/dt get
execAdobe_CoolType_Core/dt get execAdobe_AGM_Core/dt get
exec%%EOF%AI9_PrintingDataEnd
userdict /AI9_read_buffer 256 string putuserdict
begin/ai9_skip_data{mark{currentfile AI9_read_buffer { readline }
stopped{}{not{exit} if(%AI9_PrivateDataEnd) eq{exit} if} ifelse}
loopcleartomark} defenduserdict /ai9_skip_data get
exec%AI9_PrivateDataBegin%!PS-Adobe-3.0 EPSF-3.0%%Creator: Adobe
Illustrator(R) 13.0%%AI8_CreatorVersion: 13.0.2%%For: (Nigel Orme)
()%%Title: (Q20.04.eps)%%CreationDate: 7/6/09 2:02
PM%AI9_DataStream%Gb"-6qf3skPrH3+^iu`,1a,Z).GTL(m'dR;Odsa-g/>FtN>7H["]_:n*g:CDqkDJ%rSi#R!&?'_c#0qbp;SJ;AFgKJ#ojp)S3&q2%kk+\O]5O:sI=(hgIm2\u&iS.UNOO0HI6%/fU]:;Z:Y.7cD3"QO9k\bk6_8&YFI\>1ooXW
