7-CYTOSKELETON & CELL MOTILITY.pdf

Transcript

CYTOSKELETON
& CELL MOTILITY
Presented by Jericho Parami
 01

Objectives
Describe the structure and function of the
major cytoskeletal components:
microtubules, intermediate filaments, and
microfilaments.
02
Explain the roles of motor proteins, such as
kinesins and dyneins, in cellular transport
and movement.
02
Understand how the cytoskeleton contributes
to cellular motility and division through
processes like cell crawling and mitotic
spindle formation.
CYTOSKELETON
The cytoskeleton is a cellular framework made
up of protein filaments that helps maintain the
cell's structure, organizes the internal
components, and enables various types of
cellular movement, including cell division and
intracellular transport (Alberts et al., 2014; Kratz,
2020).
Alberts, B., Johnson, A., Lewis, J., Morgan, D., Raff, M., Roberts, K., & Walter, P. (2014). Molecular biology of
the cell (6th ed.). Garland Science.
Kratz, R. (2020). Molecular and cell biology for dummies (2nd ed.). Wiley.
CYTOSKELETON

MICROTUBULES
Structure:
Microtubules are hollow tubes made of
alpha- and beta-tubulin proteins.
They exhibit polarity:
Plus end: Rapid growth.
Minus end: Anchored at the
Microtubule-Organizing Center
(MTOC).
CYTOSKELETON

MICROTUBULES
Funtions:

Maintain cell shape and structure.
Act as tracks for intracellular
transport of vesicles and organelles.
Form the mitotic spindle during cell
division for chromosome
segregation.
CYTOSKELETON

MOTOR PROTEINS
KINESINS
Move cargo toward the plus end of microtubules (toward the cell
periphery).
Transport vesicles and organelles, such as during synaptic
transmission in neurons.

DYNEINS
Move cargo toward the minus end (toward the cell center).
Involved in organelle positioning and retrograde transport.
Drive the movement of cilia and flagella.
CYTOSKELETON

Microtubule-Organizing Centers (MTOCs)

MTOCs nucleate and anchor microtubules within
the cell.
The centrosome is the primary MTOC in animal
cells.
Located near the nucleus.
Consists of two centrioles.
Directs microtubule growth, especially important
during cell division (formation of spindle fibers).
CYTOSKELETON
Structure and Function of Cilia and Flagella

Cilia and flagella are hair-like
structures involved in cell
movement or fluid movement
across cell surfaces.
Axoneme structure:
9+2 arrangement of microtubules: 9 doublets
surrounding 2 central microtubules.
CYTOSKELETON
Structure and Function of Cilia and Flagella

Function:
Cilia: Short and numerous, move fluids (e.g., mucus
in respiratory tracts).
Flagella: Longer, usually singular, propel cells (e.g.,
sperm cells).
Movement is driven by dynein, causing
microtubule doublets to slide and create a bending
motion.
CYTOSKELETON

INTERMEDIATE FILAMENTS

Structure:
Provide mechanical strength and resist tensile stress.
Made of different proteins depending on cell type:
Keratin in epithelial cells.
Vimentin in connective tissue.
Function:
Maintain cell structure and stabilize organelles.
Help cells withstand mechanical stress (important in muscle,
skin, etc.).
CYTOSKELETON

MICROFILAMENTS (Actin Filaments)

Structure:
Helical filaments of actin monomers.
Highly dynamic, continuously polymerizing and depolymerizing.

Function:
Provide mechanical support to the cell membrane.
Play a key role in cell motility through the formation of lamellipodia and
filopodia.
Involved in cytokinesis during cell division by forming the contractile ring.
Enable muscle contraction through interactions with myosin motor
proteins.
CYTOSKELETON

CELLULAR MOTILITY

Actin-based motility (Cell Crawling):
Actin filaments push the plasma membrane
forward to form:
Lamellipodia: Sheet-like protrusions.
Filopodia: Thin, spike-like
projections.
Actin and myosin interaction generates
contractile forces to pull the cell body forward.
CYTOSKELETON

CELLULAR MOTILITY

Microtubule-based motility:
Microtubules and motor proteins (dynein
and kinesin) facilitate movement inside
cells (vesicle transport, organelle
positioning).
Microtubules in cilia and flagella enable
cell movement (e.g., sperm motility).
CYTOSKELETON

CELLULAR MOTILITY

Cell Division:
Microtubules form the spindle apparatus
during mitosis to ensure proper
chromosome separation.
IS THERE ANY
QUESTIONS?
Thank you for
Listening!
Alberts, B., Johnson, A., Lewis, J., Morgan, D., Raff, M., Roberts, K.,
& Walter, P. (2014). Molecular biology of the cell (6th ed.).
Garland Science.
Kratz, R. (2020). Molecular and cell biology for dummies (2nd
ed.). Wiley.