Module 2 - Cells and Tissues PDF

Summary

This document covers the topic of cells and tissues, including cell structure, functions, membrane transport, and the endomembrane system. It also discusses the cell cycle and DNA replication. Several organelles and their roles are detailed, such as mitochondria, ribosomes, and lysosomes.

Full Transcript

MODULE 2: CELLS AND TISSUES
PRESENTED BY: ALARZAR
 CELLS

šSmallest unit of life
šAll organisms are made of one or more
cells
šActivities of cells are dictated by their
shapes, types and relative numbers of the
subcellular structures they contain
šCells only arise from other cells
šThere are over 250 different cell types
CELLS

šA generalized, composite cells has:
1. Plasma Membrane – selectively
permeable barrier
2. Cytoplasm – intracellular fluid packed
with organelles
3. Nucleus – organelle that controls
cellular activities
EXTRACELLULAR MATERIALS

š Substances contributing to body mass that are found outside of the
cells
š ECF (extracellular fluid) – includes interstitial fluids, blood plasma,
cerebrospinal fluid (CSF)
š Cellular secretions – substances that aid in digestion (gastric fluids) or act as
lubricants (saliva)
š Extracellular matrix (ECM) – most abundant material, jellylike substance
composed of proteins and polysaccharides
PLASMA MEMBRANE

š Phospholipid bilayer with protein molecules plugged in as a fluid
mosaic
1. Membrane Lipids – forms the fabric of the membrane (phospholipid +
cholesterol)
2. Membrane Proteins – allows the membrane to communicate with its
environment, responsible for specialized membrane function
3. Membrane Carbohydrates – includes glycoproteins and glycolipids.
Glycocalyx (carbohydrate rich area) provides identity molecules for specific
biologicals markers.
4. Cell Junctions - allow neighboring cells to adhere and to communicate,
inhibit or aid in allowing movement of molecules between cells
Plasma Membrane
Functions of the Plasma Membrane

1. Physical Barrier – encloses the cell, separating the cytoplasm from
the extracellular fluid
2. Selective Permeability – determines which substances enters or exit
the cell
3. Communication – plasma membrane proteins interact with specific
chemical messengers and relay messages to the cell interior
4. Cell Recognition – cell surface carbohydrates allow cells to
recognize each other
Membrane Lipids
Membrane Proteins Functions
Membrane Proteins Functions
Cell Junctions
PASSIVE MEMBRANE TRANSPORT

1.Simple Diffusion – diffuse directly through the lipid
bilayer (usually small nonpolar molecules that
readily dissolve in lipids)
2.Facilitated Diffusion – either through a) binding to
carrier proteins or 2) through water filled channel
proteins
3.Osmosis – diffusion of a solvent through a
membrane
TONICITY

š Refers to the ability of a solution to change the shape of cells by
altering the cells; internal water volume
š Isotonic – have the same concentrations of nonpenetrating solutes as those
found in the cells, retain shape, exhibit no net loss or gain of water
š Hypertonic – higher concentration of nonpenetrating solutes than seen in the
cell, lose water, shrivel or crenate
š Hypotonic – more dilute than cells, cells plump up or lyse
ACTIVE TRANSPORT

šRequires transport proteins that combine specifically and
reversibly with the transported substances
šMove solutes uphill, against a concentration gradient
using energy
ACTIVE TRANSPORT
ACTIVE TRANSPORT
Membrane Potential

š Also termed as voltage, electrical potential energy resulting from
the separation of oppositely charged particles
š In cells, charged particles are ions and the barrier is the plasma
membrane
š RESTING MEMBRANE POTENTIAL – ranging from (-)50 – (-)90 mV.
š All cells are electrically polarized at the membrane
š The cell interior remains electrically neutral
 PISO, POTASSIUM
AND SODIUM
ROLES

š The resting membrane
potential is determined
mainly by the
concentration gradient of
K+
š Sodium drives the
extracellular
concentration
 Cell Adhesion Molecules (CAMs)

š According to Ren, Roberts and Shi (2011), adhesion molecules are cell
surface proteins that mediate the interaction between cells, or between cells
and the extracellular matrix (ECM).
š Plays key roles in:
1. Used as an anchor to other molecules in the extracellular space
2. arms that migrating cells use to haul themselves past one another
3. Signals that stick out from the blood vessel lining that rally WBCs to a nearby
infected or injured area
4. Mechanical sensors that transmit information about changes in the ECM

Ren G, Roberts AI, Shi Y. Adhesion molecules: key players in Mesenchymal stem cell-mediated immunosuppression. Cell Adh Migr. 2011 Jan-Feb;5(1):20-2. doi:
10.4161/cam.5.1.13491. Epub 2011 Jan 1. PMID: 20935502; PMCID: PMC3038091.
 š Diverse group of integral proteins that
serve as binding sites which play a role
in:
1. Contact Signaling – in which cells come
together, touch and recognize one
another. Useful in development and
Plasma immunity
Membrane 2. Chemical Signaling – process in which a
Receptors ligand (chemical messenger) binds a
specific receptor and initiates a
response
 š Includes
Ligands 1. Neurotransmitters – signals from the nervous system
2. Hormones – signals from the endocrine system
3. Paracrines - chemicals that act locally and are rapidly destroyed
 CHEMICAL SIGNALING

1. Ligand is sent out and
binds to a specific
receptor
2. The receptor’s structure
changes and cell proteins
are altered
3. Cell response
Types of Chemical
Signaling
G-Protein-Coupled Receptors (GPCR)

š Types of plasma membrane receptor that act through G-protein to
start a second messenger cascade
š G-protein – regulatory molecule that acts as a middle-man to
activate either 1) membrane bound enzyme or 2) ion channel
š 2 Important second messengers are 1) Cyclic AMP and Ionic
Calcium and activates protein kinase enzymes
Cytoplasm “Cell Forming Material”

š Cell material between the plasma membrane and the nucleus
š Stie of most cellular activities
š Includes 3 major elements:
1) Cytosol - viscous, semi-transparent fluid in which other cytoplasmic elements
are suspended
2) Organelles – metabolic machinery of the cell that synthesize proteins,
generate ATP
3) Inclusions – chemical substances like stored nutrients, lipid droplets and
pigments
 CYTOPLASM

Organelle Function and Characteristics
Mitochondria Powerplants of the cell, providing ATP supply
Lozenge-shaped organelles that contains its own DNA, RNA, ribosomes
and able to reproduce themselves
Ribosomes Sites of protein synthesis
Small-dark staining granules composed of proteins and RNA
Endoplasmic Extensive system of interconnected tubes and parallel sacs
Reticulum Rough ER – studded with ribosomes that manufacture all proteins secreted
from cells; manufacture of integral proteins and phospholipids that form
part of all cellular membranes
Smooth ER – contains integral proteins called enzymes that catalyze
reactions
 CYTOPLASM
Organelle Function and Characteristics
Golgi Modify, concentrate and package the proteins and lipids
Apparatus Stacked, flattened membranous sacs associated with tiny
membranous vesicles
Peroxisomes Spherical membranous sacs containing enzymes
(numerous in kidneys and livers)
Oxidases and Catalases detoxify alcohol and
formaldehyde and neutralize free radicals
Lysosomes Spherical membranous organelles containing activated
hydrolytic enzymes
Digests all kinds of biological molecules including invading
bacteria and cell debris
ENDOMEMBRANE SYSTEM

š System of organelles that work
together mainly to
š Produce, degrade, store and export
biological molecules
š Degrade potentially harmful substances
š Includes the Golgi apparatus, ER,
secretory vesicles and lysosomes
 š Elaborate network of rods running through the cytosol and
hundreds of accessory proteins that link these rods to other
Cytoskeleton cell structures
Cellular Extensions

š Cilia – whiplike, motile cellular extensions that occur on the exposed
surfaces of certain cells. Its actions move substances in one direction
across the cell surfaces
š Flagella – projections formed by centrioles but longer. The only flagellated
cell is a sperm which has one propulsive flagellum. It propels the cell itself
š Microvilli – tiny, finger-like extensions of the plasma membrane that
project from an exposed cell surface. It increase the cell surface and and
most often found in absorptive cells in the intestine and kidney
Cellular Extensions
 NUCLEUS

š Control center and contains the
instructions to build nearly all the
body’s proteins
š Most cells have only one nucleus but
skeletal muscles, bone destruction
cells and some liver cells are
multinucleate
š Except for RBCs (mature), all body
cells have nuclei
š Anucleate cells cannot reproduce
and therefore live in the bloodstream
for only 3-4 months before they
deteriorate
 CELL CYCLE

šSeries of changes a cell
goes through from the time
it is formed until it
reproduces
INTERPHASE

š Interphase – period from cell formation to cell division
šSubphases
šG1 subphase(Gap 1) – metabolically active cell, synthesizing proteins rapidly
and growing vigorously, duration is variable.
šS subphase – DNA is replicated, ensuring 2 future cells will receive identical
copies of the genetic material
šG2 subphase (Gap 2) – enzymes and other proteins are synthesized, centriole
replication is complete
 š Before a cell can divide, its DNA must be replicated exactly
DNA š During S phase, replication begins simultaneously on several chromatin

REPLICATION
threads and continues until the DNA has been replicated
š Sequence: 1) Uncoiling 2) Separation 3) Assembly 4) Restoration
 MITOTIC PHASE : CELL DIVISION

š Mitosis – division of the nucleus,
is the series of events that
parcels out the replicated DNA
of the parent cell to two
daughter cells
š Prophase
š Metaphase
š Anaphase
š Telophase
š Cytokinesis – division of the
cytoplasm
ROLE OF RNA

š Gene is the segment of a DNA molecule that carries instructions for creating one
polypeptide chain
š Four nucleotide bases 1) Adenine, 2) Cytosine, 3) Guanine, 4) Thymine
š RNA is single strand and has 3 forms that act together to carry out DNA’s
instructions for polypeptide synthesis:
š Messenger RNA – carries the coded information to the cytoplasm, where protein
synthesis occurs
š Ribosomal RNA – 2 units form functional ribosomes which are sites of protein synthesis
š Transfer RNA – ferry amino acids to the ribosomes
Disposal of the Unneeded

š Autophagy “self-eating” – sweeps up bits of cytoplasm and organelles into
double-membrane vesicles called autophagosomes then delivered to lysosomes
for digestion
š Disposal of worn out proteins and organelles, allow cells to cannibalize parts to survive
during starvation, helps restructure during development
š Ubiquitin-Proteasome Pathway
š Ubiquitin proteins attach to marked proteins ready for destruction and then hydrolyzed
by proteasomes
š Apoptosis – programmed cell death, rids the body of cells that are programmed
to have a limited life span
Developmental Aspects of Cells

š The first cell of an organism is the fertilized egg. Early in development,
cell specialization begins and reflects differential gene activation.
š During adulthood, cell numbers remain fairly constant. Cell division
occurs primarily to replace lost cells.
š Cellular aging may reflect chemical insults, progressive disorders of
immunity, or a genetically programmed decline in the rate of cell
division with age.
TISSUES
 Tissues

š Groups of cells that are
similar in structure and
perform a common or
related function
šEpithelial tissue covers
šConnective tissue
supports
šMuscle tissue moves
šNervous tissue controls
EPITHELIAL TISSUE

š Sheet of cells that covers a body surface or lines a body cavity,
a boundary-forming tissue
š 2 forms include:
š Covering and lining epithelium – forms the outer layer of the skin, lines the
cavities (urogenital, digestive and respiratory), and covers the walls and
organs of the ventral cavity
š Glandular epithelium – fashions the glands of the body
š Functions:
š Protection, absorption, filtration, excretion, secretion and sensory
reception
 CHARACTERISTICS OF THE EPITHELIUM

1. Polarity
š Apical Surface – some are smooth
and slick, most have microvilli
š Basal Lamina – non-cellular,
adhesive sheet consisting of
glycoproteins that acts as a
selective filter that determines
which molecules are allowed to
enter the epithelium
CHARACTERISTICS OF THE EPITHELIUM

2. SPECIALIZED CONTACTS – cells fit together closely to form continuous
sheets tied together by tight junctions and desmosomes
3. SUPPORTED BY CONNECTIVE TISSUE – epithelial sheets rest upon
connective tissue. In between the layers, is the basement membrane that
reinforces the epithelium preventing it from stretching and tearing
4. AVASCULAR BUT INNERVATED – has no blood vessels but supplied with
nerve fibers
5. REGENERATION- as long as epithelial cells receive adequate nutrition, cells
are replaced by cell division
 CLASSIFICATION
OF EPITHELIAL
TISSUE

š SIMPLE – found where
absorption, secretion and
filtration occurs
š STRATIFIED – with 2 or more
layers, common in high
abrasion area such as lining
of the mouth and skin
surface
CLASSIFICATION OF EPITHELIAL TISSUE
BASED ON CELL SHAPE
GRANDULAR EPITHELIA

š GLAND – consists of one or more cells that make and secrete a
particular product
š SECRETION – product of a gland that can be aqueous, lipid or
steroid-rich containing proteins
š Glands are either
š ENDOCRINE – internally secretion or EXOCRINE – externally secreting
š UNICELLULAR – one-celled or MULTICELLULAR – many celled
GLANDS

š ENDOCRINE
š Product hormones that enter the blood or lymphatic fluid to specific target
organs
š Structurally diverse and secretions also varies

š EXOCRINE
š Secrete their products onto body surfaces or into body cavities, include the
liver, pancreas, salivary glands among others
CONNECTIVE TISSUE

š Does much more than just
connect body parts
š Functions include:
š Binding and supporting
š Protecting
š Insulating
š Storing reserve fuel
š Transporting substances
CHARACTERISTICS OF
CONNECTIVE TISSUE
š EXTRACELLULAR MATRIX – a
structural support network made up
of diverse proteins, sugars and
other components and responsible
for the physical maintenance of
cells
š COMMON ORIGIN – arise from
mesenchyme (embryonic tissue)
 STRUCTURAL COMPONENTS

1. GROUND SUBSTANCE - 3. CELLS – has resident cell type that
unstructured materials that fills the exists in immature (blast) and
space between cells and fibers mature (cyte) forms
š Interstitial fluid š Mast cells
š Cell adhesion proteins š Macrophages
š Proteoglycans š WBC

2. FIBERS š Osteoblasts

š Collagen fibers
š Elastic fibers
š Reticular fibers
TYPES OF CONNECTIVE TISSUE
 MUSCLE TISSUE

š Well-vascularized tissues that are
responsible for most type of
body movement
š Possesses myofilaments with
networks of actin and myosin
that bring about movement or
contraction
NERVOUS TISSUE

š Main component of the nervous system (brain, spinal cord and
nerves) which regulates and controls body functions
š NEURONS – high specialized nerve cells that generate and conduct nerve
impulses which enables them to 1) respond to stimuli and 2) transmit electrical
impulses
š SUPPORTING CELLS / GLIAL/ NEUROGLIA – non-conducting cells that support,
insulate and protect delicate neurons
 Membranes

š Continuous
multicellular sheets
composed of at
least 2 primary tissue
types (epithelium +
connective tissue)
STEPS OF TISSUE REPAIR
STEPS OF TISSUE REPAIR
STEPS OF TISSUE REPAIR