Lecture 1_Working of Immune System_student PDF

Summary

This document is a lecture on the workings of the immune system, covering topics including the function of immune system, important terms, different types of immunity and detailed explanation using diagrams. It is likely part of a university course in biology or medicine.

Full Transcript

Introduction to immunology
& Immune mechanisms

AISHATH MAJIDHA HASSAN
 Objectives

 By the end of this session students will be able to:

 Describe general terms related to immunology
 Describe the general functions of the immune system
 Describe the characteristics of the immune response, giving
appropriate examples
 Differentiate the first line of defense, innate & acquired
immunity
 Describe mechanisms involved in the first line of defense, innate
& acquired immunity
 Briefly describe the structure and function of MHC molecule and
T cell receptor and the process of antigen processing and
presentation
 “A human body is a conversation
going on, both within the cells and
between the cells”
W. Daniel Hillis
 The immune system

 Includes the structures and processes that defends the
body against potential pathogens or foreign bodies
 Composed of specific and non-specific elements.

 Immunity: the ability of an organism to defend the
body against pathogens or foreign bodies

 Immunology: study of immunity/immune
mechanisms
 Function of immune system

Self Non-Self

 Recognize self vs. non-self
 Defend body against non-self
 Important terms

 Antigen
 Anything causing an immune response, usually foreign
material but may be our own tissues

 Pathogen
 Any disease causing microorganism

 Chemotaxis
 Migration of a cell in response to a chemical stimulus
 Characteristics of the immune system

 Specificity

 Memory

 Mobility

 Replicability

 Cooperativity
 Defense mechanisms

 First line of defense
 Barriers to infection

 Second line of defense
 Innate immune mechanisms

 Third line of defense
 Acquired immune mechanisms
First line of defense

 Barriers to infection
 Physical/mechanical
 Skin
 Cilia, hair
 Movement of intestinal
content
 Urine flushing action

 Chemical
 Mucus
 Tears, lysozymes
 Stomach acid, bile
 Sweat
 pH of vagina

Source:
http://vcebiologyimmunityproject.weebly.com
 Second line of defense
 Innate:
 Natural or inborn
 Non- specific
 Cell mediate and humoral mediated components.
 Cellular:
mast cells, neutrophils, macrophages
 Humoral: lysozyme, interferons, complement

 Protects the body from invading microbes once they gain entry
 Main mechanisms include:
 Phagocytosis
 Inflammatory response
 Complement activation
 Antimicrobial normal flora
 Phagocytosis

 Phagocytosis is the ingestion or engulfing a
microorganism by a phagocytic cell

 Four steps:
 Migration – ameobic movements, chemotaxis
 Attachment
 Ingestion & phagosome formation
 Killing - O2 dependent, O2 independent mechanisms
 5. Microbe in fused vesicle is killed
2. Phagocytes forms pseudopods and digested by lysosomal enzymes
which eventually engulf the particle within the phagolysosome, leaving a
residual body

3. Phagocytic vesicle
containing antigen
1. Microbe Adheres (phagosome) 4. Phagocytic vesicle is
to phagocyte fused with a lysosome
(phagolysosome) 6. Indigestible and
residual material is
removed by exocytosis
Inflammatory response
 Inflammatory response

 Protect body from invading microbes
 Complex response system - activates the immune system,
control spread, repair damage and clear infections
 Characterized by a number of symptoms
 Complement system
 Complex chemical defense system that destroys the
invading pathogens
 Lytic and opsonic effect
 Consists of a number of serum proteins
 Three pathways

 Functions by:
 Lysing the invading cells
 Triggering an inflammatory response
 Helping in phagocytosis of microbes
 Antimicrobial normal flora

 Prevents establishment of pathogens by:
 Occupying attachment sites

 Competing for essential nutrients

 Producing harmful substances to pathogenic bacteria -
bacteriocins
 Chemical mediators

 Cytokines

 Antimicrobial peptides
 Non-specific mediators with antimicrobial properties
 Eg: defensins, bacteriocins

 Acute phase proteins
 Secreted in response to inflammatory molecules
 Eg: C-reactive protein (opsonin), fibrinogen,
mannose-binding lectin

 Fever
 Pyrogens produced by bacteria/viruses
 Alters body temperature homeostasis
 Cytokines

 Soluble proteins; signaling  Cytokines bind to
molecules through which receptors on target cells;
cells interact or their action may be:
intercommunicate –  Autocrine
“molecular messengers”  Paracrine
 Endocrine
 Can stimulate production
of chemical mediators, cell  Can be classified as:
proliferation/inhibition,  Interleukins
chemotaxis etc  Chemokines
 Interferons
 Acquired Immunity

 Allows body to recognize, remember and respond to
a specific stimulus - antigen
 Specificity:
 Memory:

 Composed of cellular and humoral components
 T and B lymphocytes, plasma cells
 Antibodies and cytokines
 Cell mediated Acquired Immunity

 Involves T lymphocytes and
phagocytic cells
 T lymphocytes respond to
antigens associated with major
histocompatibility complex
(MHC) proteins presented by
other cells (antigen presenting
cells)

 MHC: binds to peptides from
pathogens and display them on
the cell surface, which is
recognized by T cells
 MHC molecules

Found on the surface of Found only on APCs - dendritic
all nucleated cells, including platelets cells, phagocytes, endothelial
cells, thymic epithelial cells, B cells
Presents peptides from cytosolic protein
digestion – endogenous pathway Ags derived from extracellular
proteins
 T-Cell Receptor (TcR)

 Found on T-cell surface

 Two polypeptide chains, α & β

 variable (V) & constant (C) region

 Hypervariable region:

 contribute to diversity of TCR

 Recognizes MHC + peptide bound in the groove
Antigen processing & presentation
 Humoral mediated Acquired Immunity

 Mediated by antibodies
formed in response to
antigenic stimulation

 Specific for the antigen
against which it is formed

 May be active or passive
 Acquired Immunity
Humoral mediated

 Active immunity by:
 Natural exposure in response to infection

 By intentional injection of antigens

 Passive immunity by:
 Infusion of serum/plasma with high concentrations of Ab

 Transplacental transfer of maternal Ab to fetus in utero
 Humoral – mediated Cell – mediated
Mechanism Antibody mediated Cell mediated

Cell type B lymphocytes T lymphocytes

Mode of action Antibody in serum Direct cell-to-cell contact or
soluble products secreted by
cells

Purpose Primary defense against Defense against viral and
bacterial infections fungal infections,
intracellular organisms,
tumor antigens and graft
rejection
https://youtu.be/PzunOgYHeyg