Study Unit 1

Question 1

Leukocytes

Answer 1

• collective name for the various types of white blood cells that make up the immune system
• formed partially in the bone marrow (granulocytes and monocytes) and partially in the lymph tissue (lymphocytes and plasma cells)
• the value of WBC is that most of them are specifically transported to areas of infection and inflammation, thereby providing a rapid and potent defense against infectious agents
• 7000 WBC’s per microliter of blood

Question 2

Types of WBC in the blood and their concentrations

Answer 2

1. Polymorphonuclear neutrophils: 62.0%
2. Polymorphonuclear eosinophils: 2.3%
3. Polymorphonuclear basophils: 0.4%
4. Monocytes: 5.3%
5. Lymphocytes: 30.0%
6. Blood platelets: 300 000 per microliter of blood

Question 3

Myeloid cells

Answer 3

• all cells begin as myoblasts
• granulocytes and monocytes
• formed only in the bone marrow
• megakaryocytes are also formed in the bone marrow, where they fragment and form the blood platelets (thrombocytes)
• Differentiate into:
  1. neutrophils
  2. basophils
  3. eosinophils
  4. monocytes
• monocytes differentiate into macrophages
• myeloid-derived cell: dendritic cells
• Mast cells are derived from the differentiation of a unique set of bone marrow myeloid cells and share many characteristics with basophils
• particularly important is their ability to secrete inflammatory mediators and to function as phagocytes, which is any cell capable of phagocytosis

Question 4

Life span of myeloid cells

Answer 4

Granulocytes
- 4 to 8 hours circulating in the blood after being released
- 4-5 days in the tissues where they are needed

Monocytes
- 10 to 20 hours in the blood
- once in the tissues they swell into macrophages, and live for months unless destroyed while performing their phagocytic functions

Question 5

Lymphoid cells

Answer 5

• begin as lymphoblasts
• lymphocytes and plasma cells
• produced mainly in the various lymphogenous tissue- lymph glands, spleen, thymus, tonsils and various pockets of lymphoid tissue elsewhere in the body
• bone marrow and Peyer’s patches underneath the epithelium in the gut wall
• Differentiate into the following:
  1. B lymphocytes (B cells)
  2. T lymphocytes (T cells)
  3. Natural killer (NK) cells
  4. Plasma cells
• plasma cells are not really a distinct cell type but differentiate from B lymphocytes during the immune response
• serve as recognition cells in adaptive immune responses and are essential for all aspects of these receptors

Question 6

Life span of lymphocytes

Answer 6

• lymphocytes enter the circulatory system continually, along with the drainage of lymph from the lymph nodes and other lymphoid tissue
• after a few hours, they pass out of the blood back into the tissues via diapedesis
• they then re-enter the lymph and return to the blood again and again
• thus, there is continual circulation of lymphocytes through the body
• the lymphocytes have life spans of weeks or months, depending on the body’s need for these cells

Question 7

Cytokines

Answer 7

• protein messengers from certain immune (and other) cells that regulate immune responses, by providing for cross talk between different immune system cells
• regulate host cell division (mitosis) and function in both innate and adaptive immune responses
• aren’t produces by distinct specialized glands, but instead by a variety of individual cells
• mainly act as autocrine and paracrine substances
• can also circulate in the blood to exert hormonal (endocrine) effects on distant organs and tissues involved in host defenses
• there is great redundancy in cytokine action- that is, different cytokines can have very similar effects
• Interleukins act between leukocytes and non-leukocytes
• Tumor necrosis factors elicit inflammatory responses to kill tumor cells
• Interferons interfere with processes like viral replication

Featured selected cytokines
- Interleukin 1
- Tumor necrosis factor - alpha
- Interleukin 6
- Interleukin 2
- Interferons Type I
- Interferons Type II
- Chemokines

Question 8

Source of Cytokine: Antigen-presenting cells such as macrophages

Answer 8

Interleukin 1
Target cells: Helper T cells
Function: Stimulate IL-2 receptor expression

Tumor necrosis factor-alpha
Target cell: certain brain cells
Function: induce fever

Interleukin 6
Target cell: numerous systemic cells
Function: stimulate systemic responses to inflammation, infection and injury

Question 9

Source of Cytokine: Most immune cells

Answer 9

Interleukin 2
Target cells: Helper T cells; cytotoxic T cells; NK cells; B cells
Functions: Stimulate proliferation (increase the amount of cells); promote conversion to plasma cells

Question 10

Source of Cytokine: Most cell types

Answer 10

Interferon Type I
Target cells: most cell types
Functions: stimulate cells to produce antiviral proteins (innate response)

Question 11

Source of Cytokine: NK cells and activated helper T cells

Answer 11

Interferon Type II
Target cell: NK cells and macrophages
Functions: Stimulate proliferation and secretion of cytotoxic compounds

Question 12

Source of cytokine: Damaged cells, including endothelial cells (cells that make up the lining of the blood vessels)

Answer 12

Chemokines
Target cells: neutrophils and other leukocytes
Functions: Facilitate accumulation of leukocytes at sites of injury and inflammation

Question 13

Immune system

Answer 13

A diverse collection of disease-fighting cells found in the blood and lymph and in tissues and organs throughout the body

Question 13

Immunology

Answer 13

the study of the physiological defenses by which the body (the host) recognises itself from nonself (foreign matter). In the process, foreign matter, both living and nonlinving, is destroyed or rendered harmless

Question 14

Functions of immune system

Answer 14

1. Protect against infection by pathogens- viruses and microbes including bacteria, fungi and eukaryotic parasites
2. isolate or remove foreign substances
3. destroy cancer cells that arise in the body, known as immune surveillance

Question 15

Innate immune response

Answer 15

defend against foreign substances or cells without having to recognise their specific identities. Innate responses include the response to injury or infection known as inflammation, and a family of antiviral proteins called interferons.

Question 16

Adaptive immune response

Answer 16

depend upon specific recognition by lymphocytes of the substance or cell to be attacked

Question 17

Bacteria

Answer 17

1. Cellular structure: unicellular organisms that have an outer wall in addition to a plasma membrane but no intracellular membrane bound organelles
2. Larger in size than viruses
3. Can reproduce on its own both inside and outside the body
4. Genetic material: have a single, circular DNA molecule
5. Response to antibodies: can be killed or inhibited by antibiotics
6. Cellular damage: cause tissue damage by releasing toxins

Question 18

Viruses

Answer 18

1. Cellular structure: consist of nucleic acids surrounded by a protein coat. No cell wall or membrane
2. Smaller in size than bacteria
3. Can only replicate by invading the host cell and directing it to synthesise the proteins required for viral replication. Has no enzymes for metabolism or ribosome for protein synthesis
4. Genetic material: have either DNA or RNA, but not both
5. Response to antibiotics: not affected by antibiotics, antiviral drugs are used instead
6. Cellular damage: transform host cells into cancer cells

Question 19

Neutrophils

Answer 19

When are they released
- in response to inflammation or infection

Functions
- Phagocytosis
- Release chemicals involved in inflammation (vasodilators, chemotaxins, etc.)

Question 20

Basophils

Answer 20

When are they released
- Allergic reactions, parasitic infections, inflammation

Functions
- Release histamine and other chemicals involved in inflammation into the blood

Question 21

Eosinophils

Answer 21

When are they released
- Allergic reactions, parasitic infections, asthma and atopic diseases

Functions
- Destroy multicellular parasites
- Participate in immediate hypersensitivity reactions

Question 22

Monocytes

Answer 22

When are they released
- Infections or inflammation. Released into the blood and migrate to tissues where they differentiate into macrophages or dendritic cells

Functions
- Enter tissue and transform into macrophages

Question 23

Macrophages

Answer 23

When are they released
- Present in tissues

Functions
- Phagocytosis
- Extracellular killing via secretion of toxic chemicals
- Process and present antigens to helper T cells
- Secrete cytokines involved in inflammation, activation and differentiation of helper T cells, and systemic responses to infection or injury (the acute phase response)

Question 24

B cells

Answer 24

Functions
- Initiate antibody-mediated immune responses by binding specific antigens to the B cell’s plasma membrane receptors, which are immunoglobulins
- Upon activation, they are transformed into plasma cells, which secrete antibodies
- Present antigen to helper T cells

Question 25

Cytotoxic T cells (CD8+ cells)

Answer 25

Functions
- Bind to antigens on plasma membrane of target cells (virus-infected cells, cancer cells, and tissue transplants) and directly destroy the cells

Question 26

Helper T cells (CD4+ cells)

Answer 26

Functions
- Secrete cytokines that help activate B cells, cytotoxic T cells, NK cells, and macrophages

Question 27

Regulatory T cells (CD4+ cells)

Answer 27

Functions
- Act as inhibitors on other immune cells

Question 28

NK cells

Answer 28

Functions
- Bind directly and non-specifically to virus-infected cells and cancer cells and kill them
Function as killer cells in antibody-dependent cellular cytotoxicity (ADCC)