Stem cell and the immune system-Body system
WissaneeThinnorose
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Mar 04, 2025
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About This Presentation
Stem cell and the immune system-Body system
Slide Content
Stem Cells and
the Immune System
January 2010
the Immune System
January 2010
Today’s lecture
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Immune suppression and tolerance
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Immune suppression and tolerance
Today’s lecture
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Natural killer cells
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Natural killer cells
Brainstorm
•Why do organisms contract diseases?
•What happens when an organism contracts a
disease?
•What factors can help (or hinder) the likelihood
that we will contract a disease?
•What happens when an organism is injured?
•What factors can help (or hinder) the likelihood
that we will recover from an injury?
•Why do organisms contract diseases?
•What happens when an organism contracts a
disease?
•What factors can help (or hinder) the likelihood
that we will contract a disease?
•What happens when an organism is injured?
•What factors can help (or hinder) the likelihood
that we will recover from an injury?
Today’s lecture
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Natural Killer cells
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Natural Killer cells
Basic Organization and Function of the
Immune System
The immune system is
the body’s response
to disease and injury
–Nonspecific response
(innate immunity)
–Specific response
(acquired immunity)
T-cell (part of the specific
immune response)
Immune System
The immune system is
the body’s response
to disease and injury
–Nonspecific response
(innate immunity)
–Specific response
(acquired immunity)
T-cell (part of the specific
immune response)
Nonspecific response
Exterior barriers
–Skin
–Mucous membranes
–Secretions
Exterior barriers
–Skin
–Mucous membranes
–Secretions
Nonspecific response
–Involves myeloid leukocytes (including all
phagocytic cells) such as macrophages
–Participate in the inflammatory response to injury
or disease
–Mast cells also involved
–Proteins (cytokines) signal between cells
inflammation
mast cell
protein
–Involves myeloid leukocytes (including all
phagocytic cells) such as macrophages
–Participate in the inflammatory response to injury
or disease
–Mast cells also involved
–Proteins (cytokines) signal between cells
inflammation
mast cell
protein
Specific Response
•Antigen-antibody relationship
(acquired immunity)
•Vaccinations depend on this
•Involves lymphocytes (B, T and
plasma cells)
T-cells, made visible by fluorescent dye
Model of an antibody
•Antigen-antibody relationship
(acquired immunity)
•Vaccinations depend on this
•Involves lymphocytes (B, T and
plasma cells)
T-cells, made visible by fluorescent dye
Model of an antibody
Today’s lecture
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Immune suppression and tolerance
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Immune suppression and tolerance
Lymphocyte development
Origin, Lineage, Functions
Gettyimages
Conceptualization of a lymphoid progenitor cell
Origin, Lineage, Functions
Gettyimages
Conceptualization of a lymphoid progenitor cell
Originates in
bone marrow
–Rich supply of
hematopoietic
stem cells
–Asymmetric cell
division (one
daughter stays in
bone marrow )
–Lymphoid and
Myeloid lineage
cells begin and are
released from here
Differentiation into
lymphoid stem cells
in the bone marrow
–General B cells
mature in the bone
marrow
Differentiation into
lymphoid stem cells
in the thymus
–General T cells
mature in the
thymus
bone marrow
–Rich supply of
hematopoietic
stem cells
–Asymmetric cell
division (one
daughter stays in
bone marrow )
–Lymphoid and
Myeloid lineage
cells begin and are
released from here
Differentiation into
lymphoid stem cells
in the bone marrow
–General B cells
mature in the bone
marrow
Differentiation into
lymphoid stem cells
in the thymus
–General T cells
mature in the
thymus
Play
“The Cell is Right”
to learn about the
blood tree
“The Cell is Right”
to learn about the
blood tree
Migration
Migration of mature
general B and T cells to
secondary lymphoid
organs:
–Lymph nodes
–Spleen
–Tonsils
–External body surfaces
(intestinal, respiratory,
urinary, reproductive)
Migration of mature
general B and T cells to
secondary lymphoid
organs:
–Lymph nodes
–Spleen
–Tonsils
–External body surfaces
(intestinal, respiratory,
urinary, reproductive)
Today’s lecture
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Immune suppression and tolerance
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Immune suppression and tolerance
Immune activation and response
Antigen-antibody binding
Structure, location and function of antibodies
1. Tag and disable antigen
2. Alert T cells, macrophages, leukocytes of presence
What triggers these cells to respond?
Antigen-antibody binding
Structure, location and function of antibodies
1. Tag and disable antigen
2. Alert T cells, macrophages, leukocytes of presence
What triggers these cells to respond?
Cell response
B cells: recognize antigens, proliferate and
produce specific antibodies.
–Differentiate into plasma cells- to produce
more antibodies
–Differentiate into memory cells- keep
antibodies in supply for activation from second
encounter by same antigen
B cells: recognize antigens, proliferate and
produce specific antibodies.
–Differentiate into plasma cells- to produce
more antibodies
–Differentiate into memory cells- keep
antibodies in supply for activation from second
encounter by same antigen
B cells recognize
antigens,
Differentiate into plasma cells-
produce more antibodies
Differentiate into memory cells-
keep some for later
proliferate,
and produce
specific
antibodies.
antigens,
Differentiate into plasma cells-
produce more antibodies
Differentiate into memory cells-
keep some for later
proliferate,
and produce
specific
antibodies.
Cell response
T cells: recognize and destroy tagged antigens and
proliferate
–Cytotoxic T cells bind to antigen on plasma membrane of
target cells and directly destroy the cells
–Helper T cells activate B cells, cytotoxic T cells, Natural
Killer cells and macrophages
–Remaining cells can respond to secondary exposure
T cells: recognize and destroy tagged antigens and
proliferate
–Cytotoxic T cells bind to antigen on plasma membrane of
target cells and directly destroy the cells
–Helper T cells activate B cells, cytotoxic T cells, Natural
Killer cells and macrophages
–Remaining cells can respond to secondary exposure
Cytotoxic T cell
binds to
antigen on
plasma
membrane of
target cells and
directly destroy
the cells
binds to
antigen on
plasma
membrane of
target cells and
directly destroy
the cells
Helper T cells
activate B cells,
cytotoxic T cells,
natural killer
cells and
macrophages
activate B cells,
cytotoxic T cells,
natural killer
cells and
macrophages
Today’s lecture
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Immune suppression and tolerance
•Brainstorm
•Basic organization and function of the
immune system
•Lymphocyte development
•Immune activation and response
•Immune suppression and tolerance
Why do stem cell transplants
fail?
•Immune issues impact stem cell therapies
•Major Histocompatibility Complex is a
person’s combination of cell surface
proteins that lymphocytes use to tell “self”
from “non-self”
•Allogeneic transplants fail because there
isn’t a match, and lymphocytes destroy the
non-self cells
fail?
•Immune issues impact stem cell therapies
•Major Histocompatibility Complex is a
person’s combination of cell surface
proteins that lymphocytes use to tell “self”
from “non-self”
•Allogeneic transplants fail because there
isn’t a match, and lymphocytes destroy the
non-self cells
Immune tolerance research
•Currently, transplant recipients need immune
suppression - giving drugs for long periods
of time to the patient
–Dulls the immune response to non-self
–Increases susceptibility to disease
•Immune tolerance: the future?
–Antigen-specific immune tolerance would use
drugs on the cell transplant to make them
tolerogenic
•Currently, transplant recipients need immune
suppression - giving drugs for long periods
of time to the patient
–Dulls the immune response to non-self
–Increases susceptibility to disease
•Immune tolerance: the future?
–Antigen-specific immune tolerance would use
drugs on the cell transplant to make them
tolerogenic
Future of Immunotherapy
•Play video of Jeffrey Bluestone, UCSF
•Play video of Jeffrey Bluestone, UCSF
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