CELL PHYSIOLOGY (PRESENTACION 2 BMS1).pdf

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Cell Physiology

Dr. Giam Vega-Meléndez
August 2024
Term 2025-11
Body Levels of Organization
 The Cell
Basic unit of life
The cell is a sum of its
parts:
PLASMA
MEMBRANE
(CELL WALL)
CYTOSOL
ORGANELLES
INCLUSIONS
 Plasma Membrane
Cell boundary
7-10 nm thick
Functions:
– Cell to cell recognition
– Protection
– Signaling pathways
Complex structure
composed of:
– Lipids
– Proteins
– Carbohydrates
 Plasma Membrane
Lipid bilayer
(fluid mosaic model)

PHOSPHOLIPIDS 75%
CHOLESTEROL 20%
GLYCOLIPIDS 5%
Phospholipids:
Amphipathic molecule with a: Polar head
phosphate head (hydrophilic)

Amphipathic
fatty acid tail (hydrophobic) molecule

Glycolipids: Nonpolar tails

Lipid molecule with a sugar side chain

Cholesterol:
Found ONLY in eukaryotic cells
 Proteins
Classified according to their position in the plasma membrane (PM)

Integral- proteins that cross the membrane.
Functions: structural, receptors and as channels

Peripheral- proteins found on the outer surface of the PM
Functions: hormone receptors, cell surface markers (antigens, for the
immunological recognition)
 Intracellular Environment
Intracellular compartment:
– Consists mostly of water
– Separated form
extracellular compartment
by a cell membrane

– Comprised of all
intracellular organelles

– Main electrolyte is K+
 Extracellular Environment
Extracellular
compartment:
– Divided into two parts:
blood plasma and interstitial
fluid
– Communicates with
intracellular compartment
via movement of molecules
and ions through the cell
membrane
– Main electrolyte is Na+
 Intra and Extracellular
Homeostasis is maintained
by the ATPase
MEMBRANE PERMEABILITY
(selective permeability)

LIPID SOLUBLE

It depends on:
Size
Charge
Channels or Transporters
 Cell transport mechanisms
Passive process
Depend on pressure or concentration
differences and diffusion

1. Simple diffusion
2. Osmosis
3. Bulk flow
4. Facilitated diffusion
 SIMPLE DIFFUSION

Process of random
mixture of particles in
a solution achieving
equilibrium
WITHOUT USING
CELLULAR ENERGY
(eg. O2, CO2, small COH,
H2O, lipid soluble
vitamins)
Factors that influence diffusion

Concentration gradient
Temperature
Mass of diffusion substance
Surface area
Diffusion distance
 Osmosis
– Diffusion of a solvent through a
selective membrane.
– It is determined by the osmotic
pressure
defined as the pressure required to
stop the net movement of pure water
through a selective membrane

– Aquaporin: Integral protein that act
as a canal for water movement.
BULK FLOW
Movement of large volume of
particles dissolved or carried in
a medium (eg. air flow,
capillary blood flow (filtration)

FACILITATED DIFFUSION
(transport)
Movement of molecules
through a selective membrane
aided by specific membrane
proteins that serve as channels
or transporters.
(eg. glucose vitamins, ions)
 Active transport
Energy spending process for the movement
of a molecule against a concentration
gradient

Primary Active Transport
Movement of molecules across a selective
membrane from a lower to a higher
concentration area by pump proteins using
energy released by splitting ATP
(eg. Ions Na+, K+, Cl-, H+)
 Secondary active transport
Indirectly uses ATP
Uses gradient derived from
primary active transport
(usually Na/K pump) to
transport two or more ions
Two types:
– Co-transport: both ions are
moved in the same direction
– Counter-transport: move
ions in opposite directions
 Vesicular transport

Process through which small vesicles bud from a cell
membrane to bring in or out material.

Phagocytosis (cell eating)
Endocytosis
Pinocytosis (cell drinking)

Exocytosis (eg. neurotransmitters)

Process for exporting substances from the cell
(neurotransmitters, hormones, digestive enzymes)
 Cytoplasm
1. Cytosol
Gel like fluid in which the cell metabolic reactions occur.
Contains suspended particles, minute filaments and tubules.
75 - 90% H2O
Proteins
Colloids
– (large organic compounds eg. glycogen)
Lipids

2. Organelles:
Specialized structures related to cell
growth, repair and maintenance.
 Cytoskeleton
Internal network of proteins
inside the cytoplasm
involved in locomotion,
phagocytosis and cell wall
strength.
Made up of:
Microfilaments
Microtubules
Intermediate filaments
(connect the nuclear
membrane with the cellular
membrane)
Microfilament
Rod like structure
composed of actin
filaments that provides
support and movement
assisting in cell shape.
(microvilli)

Microtubules
Largest of the cytoskeletal
components cylindrical
structure consists of tubulin
major function is assembly
of centromere during cell
division. Provide motility.
 Flagella and Cilia

Mainly composed of microtubules.

Both structures are motile, but only
the flagella allows for locomotion.
 Nucleus
Largest organelle.
It is enclosed in a bi-layer
membrane continuous
with the endoplasmic
reticulum.
Houses genetic
information of the cell
(DNA/Cromosomes)
– DNA replication
– mRNA transcription
– rRNA transcription
 Number or Nucleus
Most cells are unicellular
Binuclear: hepatocytes, cardiac muscle,
epithelial cells of urinary tract
Multinuclear: osteoclast and skeletal muscle
cells
RBCs only cell in the body anuclear
 Nucleolus
Region within the nucleus
Responsible for the production of rRNA
Endoplasmic reticulum:
Membrane bound
network of channels
providing surface area
for chemical reactions

Smooth ER:
Related with synthesis of
lipids and detoxification
of lipid soluble drugs
Without ribosomes

Rough ER:
Synthesis for proteins to
be exported
Contain ribosomes
 Ribosomes:
Cytoplasmic site for
protein translation and
assembly.
Some are free in the
cytoplasm while others
are attached to the
endoplasmic reticulum.

2 Sub-units
Large 60’S
Small 40’S
 DNA is copied during a process called replication
The flow of genetic information in cells is as follows: DNA--->messenger
RNA---->protein
RNA has 3 functions: 1) carry genetic information in the form of a message
(mRNA); 2) to the ribosomes (made of ribosomal RNA); 3) in order for
transfer RNA (tRNA) to deliver the correct amino acid needed to build a
specific protein
DNA is converted into messenger RNA during a process called transcription
mRNA is converted into proteins during a process called translation
 In Eukaryotic cells, DNA
replication and
transcription occur in the
nucleus and translation
occurs in the cytoplasm
– Fungi, animals, plants

In Prokaryotic cells, DNA
replication, transcription
and translation occur in the
cytoplasm
– bacterial cells
 Membrane enclosed
Golgi cisternae where proteins
complex and lipids are packaged
into secretory vesicles for
export or insertion into the
cell membrane.
 CIS FACE
GC
RER

TRANS
FACE

Medial cysternae Secretory
Add CHO and lipids vesicle
to proteins
 Lysosomes
Specialized vesicles which
contain digestive enzymes for
breakdown of nutrients and
foreign bodies
Primary lysosomes (with
enzymes)
Secondary lysosomes (with a
phagocytic vacuole)
 Lysosomes clinical implication
Secondary lysosomes are
exocytosed out of the cell Cherry red macula in
or undergo partial 90% of the cases
degradation forming
residual bodies.
Tay Sach’s Disease is an
accummulation of residual
bodies
– Autosomal recessive
disorder
– Present first year of life
– Dead usually age 2
Mitochondria
Organelle in which
energy is produced
during cellular
respiration.

Mitochondrial DNA is
transmitted through
maternal inheritance
Mitochondria clinical implication
Leber’s Hereditary
Optic Neuropathy
(LHON)
– Rare optic nerve
diseases that is the
result of maternal
mitochondrial DNA
mutations
– Central visual loss