Lymphatic and Immune Systems PDF

Summary

These notes provide a comprehensive overview of the lymphatic and immune systems, discussing their major functions, components, and various responses. The document details the roles of these systems, including the drainage of interstitial fluid, transport of lipids, and immune responses.

Full Transcript

[Lymphatic and immune system]
-----------------------------------------

- These two systems, although it would be more accurate to call it one
system, are composed of:

- - - - -

There are three major roles that lymphatic and immune system perform:

1. ***Drainage of excess interstitial fluid***

2. ***Transportation of dietary lipids***

3. ***Immune response***

*Lymphatic vessels are absent in: CNS, cartilage, epidermis, bone
marrow.*

Schematic approach to lymphatic system
======================================

**Lymphatic capillaries Lymphatic vessels Lymph nodes**

Intertwine between other In limbs they run parallel Scattered

capillaries. Thin walled to veins, and in body cavities throughout the
body

with overlapping lymphatic vessels are closer Approximately 600

endothelial cells that create. to arteries. lymph nodes are

valvular mechanism. found within human body

- **Lacteals** -- they are specialized lymphatic vessels of the small
intestine that help absorption of dietary lipids.

- **Lymphatic trunks** -- they are larger lymphatic vessels such as
lumbar, intestinal, broncho-mediastinal, subclavian or jugular
trunks. Merger of lymphatic trunks gives rise to major two lymphatic
vessels:

1. **The thoracic duct** -- This is the largest lymphatic vessel. It
originates at L2 vertebra with enlargement that is called **cysterna
chyli**. It receives the lymph from the lower half of the body
(inferior to ribs) and from the left side of the head, neck, face,
chest and left upper limb. It **drains into left subclavian vein.**

2. **The right lymphatic duct** -- It **drains into right subclavian
vein**. It receives the lymph from the right side of the head, neck,
face, right side of the chest and upper right limb.

Movement of lymph is also affected by the skeletal muscle pump and the
respiratory pump.

[Lymphatic organs and tissues]
------------------------------------------

***Primary lymphatic organs*** -- where stem cells divide and become
immunocompetent -- red bone marrow and thymus.

***Secondary lymphatic organs*** -- where immune responses occur --
**lymph nodes, spleen and lymphatic nodules**.

Lymphatic nodules are found in digestive and respiratory systems and
they are called **MALT** - mucosa associated lymphatic tissue. Examples:
Peyer's patches in the small intestine or pharyngeal (adenoid), lingual
and palatine tonsils.

IMMUNE SYSTEM
=============

Nonspecific immune systems
--------------------------

**Innate defenses (inborn defenses)**

- Don't have any specific means of action. Use the same defensive
mechanisms for any type of invaders.

### [First lines of defense] -- mechanical barriers, movement of material and chemical defense

###

###

### Mechanical defenses

- Barriers

1. Epidermis

2. Mucous membranes -- mucus, hairs, cilia

*Movement of material*
----------------------

1. Lacrimal apparatus

2. Saliva

3. Flow of urine

4. Defecation and vomiting

*Chemical defenses*
-------------------

1. Sebum (unsaturated fatty acids inhibit growth of certain bacteria)

2. Perspiration

3. Lyzozyme (enzyme)

4. Gastric juice

5. Vaginal secretions

###

###

###

### [Second line of defense] (internal defenses)

Antimicrobial proteins
----------------------

- Interferon (protein released from infected cells -- macrophage,
lymphocytes or fibroblasts); it attaches to the surface of
uninfected cell; interfere with viral replication and hopefully stop
it. Viruses can cause a disease only if their replication is
unaffected)

- Complement proteins - when activated they enhance immune, allergic
and inflammatory reactions)

- Transferrins (iron-binding proteins) -- they reduce the amount of
available iron that must be available for growth of certain bacteria

[Natural killer cells and phagocytosis]
---------------------------------------------------

- Natural killer cells (lymphocytes that are different than B or T
lymphocytes).

- 5-10% of NK cells circulate. They attack any cell that displays
abnormal or foreign plasma membrane proteins. They will kill either
by:

- - - Macrophage cells and neutrophils do phagocytosis --
ingestion of microorganisms or foreign particles.

- Macrophage cells are enlarged monocytes; phagocytes could be
wandering (migrating) and fixed (stationary within an organ).

[Inflammation ]
---------------------------

- Another form of non-specific immune response

- It is characterized by 4 cardinal (characteristic) signs of
inflammation:

- - - - - - Inflammatory response has three main (basic)
stages:

- - -

Fever
-----

- Abnormally high body temperature

- Commonly caused by release of Interleukin --1 by bacterial toxins

- Increased body temperature helps damage and destroy microorganisms
faster

Specific immunity
=================

Specific immune response is provoked by antigens. Antigen could be
defined as any substance capable of triggering immune response. Specific
immunity is generated and gained throughout the life, as we are
constantly exposed to microorganisms or their fragments that we haven't
encountered before.

Specific immunity has:

1. Specificity for particular foreign molecules (antigens)

2. Memory for previously encountered antigens (second response is
prompt and vigorous)

Maturation of lymphocytes
-------------------------

Lymphocytes are carriers of our specific immune response. In order to do
so, they must mature and the process of their maturation occurs in bone
marrow (it generates B-lymphocytes) and within the thymus (producing
mature form of

T-lymphocytes.

During the process of maturation lymphocytes acquire distinct surface
proteins that have role of antigen receptor site.

- T cells exit the thymus with either CD4+ or CD8+ proteins

Types of immune responses
-------------------------

The specific immune response could be either **cell-mediated** response
or **antibody-mediated** response, which is also known as **humoral**
response.

**Cell mediated immune response**

- CD8+ T-cells proliferate into cytotoxic T-cells and they directly
attack invading agent

**Humoral (antibody mediated) response**

- B-cells (B-lymphocytes) transform into plasma cells, which then
synthesize and release antibodies. Antibodies are complex proteins
called the immunoglobulins.

- Mechanism of action is to allow antibodies to bind to a specific
antigen, inactivate it, and sometimes use CD4+ T-cells (helper
T-cells).

[Cell mediated immune response]
-------------------------------------------

1. T-cell receptors (TCR) recognize and bind to a specific antigen

2. Co-stimulation with interleukin 1 or 2 is required to make a contact
between T-cell and a cell which presents the antigen. Co-stimulation
is required to prevent accidental immune response.

3. Activated cell (step 2 complete), proliferates and differentiates.
Thousands of cloned cells are produced that can recognize the same
antigen. Activation happens in secondary lymphatic organs

4. 3 types of T cells:

a. b. c.

Action of cytotoxic T cells
---------------------------

- Release perforins ( fluid moves into cell and it subsequently
bursts)

- Secretes lymphotoxin (activate enzymes within the target cell,
destroy DNA)

**[Antibody mediated immunity (humoral immune response)]**

When presence of foreign antigens is detected (antigens are released
from destroyed cells after activation of T cells), B-lymphocytes become
activated. Their activation results in their **transformation into
plasma cells**. Plasma cells start producing and releasing antibodies
(immunoglobulins).

**Antibody actions**

1. Neutralization (antibody + antigen combination neutralizes toxins or
prevents attachment of viruses to cellular bodies).

2. Immobilization of bacteria (binding of antibody to bacterial cilia
or flagella of mobile bacteria, limiting their mobility)

3. Agglutination (clumping together) and precipitation

4. Activation of complement

5. Enhance phagocytosis (process called opsonization)

Complement system
-----------------

- Utilizes existing plasma proteins which enhance immunological
reaction by increasing inflammation, enhancing phagocytosis and
physical destruction of microorganisms