8th Edition
Author(s)Sue E. Huether
TEST BANK
Q1. After an episode of intense intestinal inflammation,
epithelial cells separate enough that fluid and small solutes
move freely between adjacent cells. Which structure is most
directly compromised?
A. Tight junctions
B. Desmosomes
C. Microvilli
D. Gap junctions
Correct Answer: A
,Rationale:
Clinical Clue: The problem is paracellular leakage between
adjacent epithelial cells.
Mechanism: Tight junctions seal the intercellular space and
regulate passage between cells.
Why the Correct Answer Is Right: Loss of tight junction integrity
increases paracellular permeability, allowing fluid and solutes
to escape across the epithelium.
Why the Other Options Are Wrong: Desmosomes provide
mechanical adhesion, microvilli increase absorptive surface
area, and gap junctions permit intracellular communication
rather than barrier sealing.
Exam Trap (common misconception tested): Confusing barrier
function with mechanical attachment.
High-Yield Clinical Correlation: Epithelia depend on tight
junctions to preserve compartmental control and prevent
uncontrolled fluid loss.
Q2. A patient develops fragile skin that blisters after minor
friction because adjacent epidermal cells separate under stress.
Which adhesion structure is most likely defective?
A. Tight junctions
B. Gap junctions
C. Desmosomes
D. Nuclear pores
Correct Answer: C
,Rationale:
Clinical Clue: Mechanical stress causes cells to pull apart.
Mechanism: Desmosomes anchor neighboring cells and provide
tensile strength.
Why the Correct Answer Is Right: When desmosomal
attachment fails, tissues exposed to friction lose structural
cohesion and blister.
Why the Other Options Are Wrong: Tight junctions maintain
barrier function, gap junctions mediate cell-to-cell signaling,
and nuclear pores regulate nucleo-cytoplasmic transport.
Exam Trap (common misconception tested): Mistaking cell
communication structures for cell-strength structures.
High-Yield Clinical Correlation: Tissue integrity depends heavily
on desmosomal adhesion in high-stress epithelia.
Q3. In cardiac muscle, rapid spread of electrical activity from
one cell to the next depends most directly on which structure?
A. Desmosomes
B. Gap junctions
C. Lysosomes
D. Centrioles
Correct Answer: B
Rationale:
Clinical Clue: The issue is coordinated impulse transmission
between adjacent cells.
Mechanism: Gap junctions create low-resistance channels for
ion flow between cells.
, Why the Correct Answer Is Right: Cardiac syncytium-like
behavior requires ion movement through gap junctions to
synchronize depolarization.
Why the Other Options Are Wrong: Desmosomes provide
mechanical support, lysosomes degrade cellular debris, and
centrioles organize microtubules during division.
Exam Trap (common misconception tested): Confusing
mechanical coupling with electrical coupling.
High-Yield Clinical Correlation: Gap junction integrity is
essential for coordinated contraction in excitable tissues.
Q4. A hormone binds a membrane receptor and triggers a large
intracellular response from a small external signal. What best
explains the size of that response?
A. Passive diffusion through the lipid bilayer
B. Second-messenger amplification
C. Direct movement through tight junctions
D. Ribosomal translation of the hormone
Correct Answer: B
Rationale:
Clinical Clue: A small amount of ligand produces a
disproportionately large effect.
Mechanism: Signal transduction cascades amplify the initial
receptor event through second messengers and kinase
activation.
Why the Correct Answer Is Right: Amplification allows a brief
extracellular signal to generate a strong intracellular response.