Case 17- TB and lymphoid organs

Question 1

TB and HIV

Answer 1

It is the leading cause of death among people with HIV, it causes one in three AIDs related deaths

Question 2

Causative agent of TB

Answer 2

TB is caused by bacteria of the Mycobacterium tuberculosis complex- mainly Mycobacterium tuberculosis, rarely Mycobacterium bovis.

Question 3

TB transmission

Answer 3

Through the respiratory route from those with infectious active pulmonary TB coughs

Question 4

Classifying the Mycobacterium tuberculosis complex

Answer 4

Aerobic rods, occasionally form branched filaments. The gram stain does not work, the acid fast staining process is used and is often referred to as acid fast bacteria, stain gives them a deep purple colour. Mycobacteria have a lipid rich cell wall (major pathogenicity factor).

Question 5

Epidemiology of TB

Answer 5

1) V high rates in subsaharan Africa, South East Asia
2) HIV with TB is most common in sub-saharan Africa
3) UK is a low incidence country
4) There is a slow decrease in TB cases and overall deaths worldwide
5) TB is one of the top 10 causes of death worldwide, multi-drug resistant TB has started to develop

Question 6

What is TB associated with in England

Answer 6

People born outside the UK account for 72% of TB notifications, TB is associated with deprivation.

Question 7

TB- what happens after primary exposure

Answer 7

After exposure to the primary case of TB about 70% of people will have no infection. Of those infected over 90% will have immune activation and granuloma formation and then latency. In immunocompromised people (<10%) there will be reactivation of TB leading to the active disease. Its far greater in those with HIV. There will be failure of immune activation and this leads to the primary disease (active disease).

Question 8

Clinical features of TB- the 4 different types

Answer 8

• Active pulmonary TB- the most common presentation
• Active extrapulmonary TB- presents with symptoms specific to the site involved (CNS/ Lymph nodes/ Bones and joints/ Pericardium/ GU). Can get spinal TB, infection of the lymph nodes and granuloma formation.
• Latent TB- occurs when the Mycobacterium bacteria remains dormant and is asymptomatic, reactivation in about 10% of cases
• Multidrug resistant TB- refers to a strain of TB that is resistant to two first line drugs

Question 9

Risk factors for TB

Answer 9

• Being born in high prevalence areas
• Close contact with TB
• Previously (especially incomplete) treatment for TB
• Comorbidities
• Social risk factors
• Alcohol or drug misuse

Question 10

When should you suspect TB

Answer 10

In patients who have a high risk of developing TB and have general symptoms of weight loss, fever, night sweats, anorexia and malaise

Question 11

When should you consider pulmonary involvement in TB

Answer 11

Once other things have been rules out- persistent productive cough, breathlessness and haemoptysis

Question 12

Pulmonary TB

Answer 12

Causes destruction of lung tissue, there will be abnormal x-rays with considerable scarring. There can be granuloma formation in the lungs

Question 13

Latent TB

Answer 13

• Initial stage of TB infection causes the innate immune response followed by the adaptive immune response.
• Recruitment of T cells, B cells, activated macrophages and other leukocytes leads to the establishment of granulomas, less likely to happen in HIV.
• Granulomas are cellular aggregates which are pathologic hallmarks of tuberculosis thought necessary for containment of infection. It restrains and contains the infection
• Most infected individuals will remain in the latent state of infection
• <10% will progress to active disease when granulomas have eroded into the airway. Transmissive granuloma

Question 14

Miliary tuberculosis

Answer 14

Very rare, characterised by wide dissemination. There will be tiny spots on the chest x-ray, can disseminate to other tissues, fatal if untreated

Question 15

TB clinical features- latent and active

Answer 15

• Latent- asymptomatic, non-infective, positive skin test or blood test for indicating TB infection, normal chest x-ray and a negative sputum smear, needs treatment for latent TB
• Active- symptomatic, infective, positive skin test or blood test for indicating TB infection, abnormal chest x-ray or positive sputum smear or culture, needs treatment for active TB disease

Question 16

Treatment for active TB

Answer 16

Active antibiotic drug treatment with combination regimens:
• Usually 6 months of isoniazid (with pyridoxine) and rifampicin
• Supplemented in the first 2 months with pyrazinamide and ethambutol
You tend to stop treatment when there is a negative smear or culture

Question 17

Treatment for latent TB

Answer 17

• 3 months with isoniazid (with pyridoxine) and rifampicin, or
• 6 months of isoniazid (with pyridoxine)

Question 18

Completing TB treatment

Answer 18

15% of patients do not complete their course of treatment. Patients should complete treatment to reduce the risk of:
• Drug resistant TB
• Onward transmission
• Relapse of disease
• Dying

Question 19

Problems of TB treatment (resistance)

Answer 19

• Mono-resistance= resistance to one first line anti-TB drug only
• Poly-resistance= resistance to more than one first line anti-TB drug, other than both isoniazid and rifampicin
• Multidrug resistance (MDR)= resistance to at least both isoniazid and rifampicin
• Extensive drug resistance (XDR)= resistance to any fluoroquinolone and at least one of the three second line injectable in addition to multidrug resistance.

Question 20

Issues with MDR TB

Answer 20

Limited and expensive treatment options, poor availability of second line treatment. Adverse side effects

Question 21

Prevention of TB

Answer 21

• Vaccination
• Contact tracing
• Surveillance and monitoring
• Make sure treatment is complied with to prevent drug resistant forms
• Screening for TB
• Workforce availability
• Quality diagnostics

Question 22

TB vaccination

Answer 22

BCG vaccination, it is 70-80% effective against the most severe forms of TB such as TB meningitis and milliary TB. It’s the least effective against pulmonary TB (50%). Only given in areas of high prevalence. It was on the schedule from 1953 to 2005 for 10-14 year olds. Its given at birth in countries with high prevailence.

Question 23

Latent TB- brief

Answer 23

Mycobacterium remains dormant and asymptomatic. Not infective but positive on blood tests, treat for latent TB to prevent from becoming active

Question 24

The primary lymphoid organs

Answer 24

The bone marrow and the thymus

Question 25

First step of B and T cell development

Answer 25

Production of a common HSC, a lymphoid cell precursor. In the bone marrow the lymphoid progenitors become committed to either a B or T cell

Question 26

Where does B cell development take place

Answer 26

The bone marrow

Question 27

Stromal stem cells in the bone marrow

Answer 27

Stromal stem cells in the bone marrow i.e. skeletal or mesenchymal stem cells provide the suitable micro environment for B cell development. Allows for functional gene rearrangement which lead to functional B cell receptor. The stem cells provide the cytokine IL-7 which is essential for B cell development, when it binds to the B cell it initiates a signalling cascade. The B cells are very close to the stromal stem cells

Question 28

Where does T cell development take place

Answer 28

1) In the bone marrow there is development of the T cell lineage from the HSC
2) Immature T cells migrate to the thymus
3) Functional gene rearrangement leads to development of the TCR

Question 29

Thymus

Answer 29

A multi-lobed organ with an outer capsule. Has two distinct layers the outer cortex and the inner medulla, each has a role. The Thymus sequesters (degrades) with age, people get more infections with age.

Question 30

Hassall’s corpuscle

Answer 30

Linked to autoimmune disease

Question 31

T cell development in different areas of the Thymus

Answer 31

• Progenitor T cells are derived from the bone marrow
• Initially they are CD4-ve and CD8-ve (double negative thymocyte)
• T cell precursors enter the sub-capsular cortical areas
• They encounter networks of cortical epithelial cells (the thymic stroma)
• A functional TCR is produced
• CD4+ and CD8+ double positive
• Positive selection for functional TCR
• Move into the medulla where they become CD4 or CD8 cells, if they autoreact they undergo apoptosis. T cells then move to the periphery
• If there is weak binding for self cells then they become T-regulatory cells

Question 32

What happens in the cortex of the Thymus

Answer 32

• Double negative T cells fate selection pathway- become either αβ T cells (90-95%) γδ (gamma delta) T cells (non-MHC restricted, Lipid, non-protein, may be important in epithelia boundaries e.g. gut).
• TCR gene recombination- sequential beta-chain and alpha-chain rearrangement
• Expression of CD4 and CD8- double positive

Question 33

What happens in the Medulla of the Thymus

Answer 33

Negative selection, conversion to single negative CD4 or CD8

Question 34

Selection in the thymus for functional TCR’s

Answer 34

• β-selection: occurs after β-chain rearrangement (cortex), if you don’t have a beta chain you wont proceed
• If survive β-selection, upregulate CD4/8 → Double positive
• Double positive B cell undergo α-chain rearrangement
• Then positive selection (cortex) for interaction with self MHC
• Then negative selection in medulla for interaction with self peptides on MHC
• Switch to Single positive CD4 or CD8

Question 35

What happens to T cells as you age

Answer 35

Your memory T cells will remain but your naive T cells disease, this is because thymic output decreases with age. Means you have a less robust response with new infections

Question 36

Secondary lymphoid organs

Answer 36

Main sites of immune activation against protein antigens (T cell dependent). The spleen is also important in B cell development i.e. follicular B cells and marginal zone B cells. Certain follicles are populated with follicular B cells, used in the activation and production of antibodies and interaction with T cells.

Question 37

Types of secondary lymphoid organs

Answer 37

Lymph node, Tonsils, Adenoid, Lymphoid aggregates, Spleen, Peyer’s patch, Appendix

Question 38

The Lymph node

Answer 38

Main drainage/ filter for lymph. For antigens from peripheral tissue. Highly vascularised, interacts with the blood circulation which provides the lymph nodes with the B and T cells. Contains lots of follicular B cells and high endothelial venules which are needed when communicating with the blood system. Filters antigens which may be presented on dendritic cells

Question 39

The lymph node- germinal centre and mantle zone

Answer 39

The lymph node structure is a germinal centre surrounded by a mantle zone. Mantle zone is occupied by T cells and inactivated B cells. The germinal centre consists of activated B cells. There is a clear division between the B and T cells within the lymph node

Question 40

Structure of lymph node

Answer 40

1) Follicle (B cells)
2) Paracortex (T cell zone)- part of the cortex, near the centre
3) Cortex
4) Medulla
5) Capsule
6) Trabecula

Question 41

Lymph node paracortex

Answer 41

Contains High Endothelial Venules (HEV) which allow T cells to enter the Lymph node directly from the blood. They also enter via the afferent lymph vessels. The activated T cells leave via the efferent lymph vessels.

Question 42

How T and B cells move through the lymph node

Answer 42

• Interstitial fluid drains into the lymph node via the afferent lymphatic vessels
• They come into contact with the B and T cell lymphocytes.
• T cells enter via the HEV into the paracortex
• The T cells then drain into the efferent lymph node and can make their way back to circulation through the thoracic duct
• Naïve B cells circulate through the lymph nodes and find antigens presented on dendritic cells.

Question 43

Spleen

Answer 43

• Filtration of blood, removes old red blood cells
• Main protection against blood born pathogens
• Contain follicles populated with follicular B cells, these B cells are T cell dependent
• Follicles have a marginal zone- contains marginal zone B cells which are T cell independent, so may be used against capsulated bacteria
• Germinal centre- mostly B cells

Question 44

Structure of Spleen

Answer 44

• Highly vascularised organ
• Like lymph node it is encapsulated
• Contains red pulp (70%)- a reservoir for RBC’s, platelets and macrophages
• White pulp- mainly lymphocytes (B and T cells), separated from red pulp by marginal zone. The marginal zone traps particulate matter so only small cells get through, acts like a filter. Antigenic material is presented to the lymphocyte in the white pulp
• Trabecular- helps physically support the spleen
• Periarterial lymphoid sheath (PALS)- portion of the white pulp, populated mostly by T cells and surrounds the central artery (separates it from the germinal centre). The PALS-T cell is presented with blood borne antigens by dendritic cells or directly.
• The germinal centre is surrounded by the marginal zone and the mantle zone.

Question 45

Movement of blood through the spleen

Answer 45

Moves through the trabecular arteries and then into smaller arteries. The Antigens and dendritic cells then diffuse out into the PALS, this activates the T cells which activate the B cells within the germinal centre. The B and T cells then re-enter the general circulation though the Penicillar arterioles.

Question 46

Mucosal associated Lymphatic tissue (MALT)

Answer 46

Unencapsulated or partially capsulated, the organisation is more diffuse compared to lymph node or spleen. Role is to encounter antigens passing through the mucosal epithelium i.e. GALT.

Question 47

Tonsils (MALT)- Waldeyer’s tonsilar ring

Answer 47

Adenoid tonsil, two tubal tonsils, two palatine tonsils, and Lingual tonsils. It’s a more organised MALT.

Question 48

Diffuse MALT

Answer 48

Peyer’s patch, type of GALT. Contains small gaps which are where the mast cells are, they pick up antigens and pass them into the T cells.

Question 49

Germinal centre B cells

Answer 49

In the Germinal centre you get proliferation and differentiation of B cells with the production of antibodies. You get somatic hypermutation (select for better antibodies) and clonal expansion. Antibodies and memory cells are produced. When the B cells first encounter an antigen in the B cell follicle you get IgM production, its only in the germinal centre that you get class switching and IgG production. IgM is the primary response and IgG is the secondary response

Question 50

Germinal centre- light and dark zone

Answer 50

• Activation of B cells and migration into the germinal centre
• B cell proliferation (dark zone) and somatic hypermutation (light zone)
• Selection of high affinity B cells, isotype switching (light zone)
• Exit of high affinity antibody secreting cells and memory B cells