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AUTOIMMUNE DISEASES and ENDOGENOUS TOXINS

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Title: AUTOIMMUNE DISEASES and ENDOGENOUS TOXINS


1
AUTOIMMUNE DISEASES andENDOGENOUS TOXINS
  • Alex Lee
  • Yuan Zhou
  • Jackie Chong
  • Luis Chu

2
What Youll Learn
  • Autoimmune Diseases
  • Focused on Rheumatoid Arthritis
  • Endogenous Toxins

3
Endogenous Toxins
  • Compounds/metabolites naturally produced in the
    body
  • Improper regulation can lead to pathogenesis
  • Ex. Excess bilirubin during hemolytic anemia
    (Kernicterus)

4
Immunological Tolerance
  • Not attacking and accepting self cells
  • Mechanism mostly by clonal deletion and
    clonal suppression where during the
    hemopoietic stem cell maturation process,
    lymphocytes that have receptors for self antigens
    are deleted/suppressed
  • The ones that survive this process will
    recognize/attack
  • pathogens with foreign antigens only
  • Regulated by suppressor T-cells

5
T-cells (Positive and Negative Selection)
  • During the T-cell maturation process,
    approximately 98 of the thymocytes die
  • Thymocytes are produced in the bone marrow
    without the CD4 or CD8 receptor complex, (these
    complexes are expressed when the thymocytes
    mature in the thymus)
  • First Part Positive selection, T-cells that do
    not bind to class I or class II MHC molecules
    will undergo apoptosis and die
  • Second Part Negative selection, T-cells that
    have high affinity to the MHC complex of antigen
    presenting cells in the thymus undergo apoptosis,
    or they will be suppressed (This leads to self
    tolerance)
  • Similar selection process occurs for B-cells,
    those who produce antibodies that bind strongly
    with self-antigens are inhibited

6
Autoimmunity
  • Loss of immunological tolerance/ Failure to
    suppress in the selection process will lead to
    autoimmunity, the lymphocytes will attack the
    specific body cell/tissue that expresses the
    unique self-antigen
  • Random/variable parts of T-cell and B-cell
    receptor allow some of these lymphocytes to
    recognize self
  • Damage to tissue is caused by immune system,
    including antibodies produced by B-cells,
    cytotoxic T-cells, complement, macrophages
    causing tissue damage and inflammation (harm may
    be directed to single organ or at a systemic
    level depending on the disease)
  • Determinant spreading when tissue/cells are
    destroyed, they release a lot of antigens into
    the bodys circulation that are not normally
    present inducing autoimmunity (so activation on
    a specific autoimmune T-cell can induce other
    autoimmune cells ex. A specific autoimmune
    B-cell)
  • Molecular Mimicry pathogen antigen causes an
    immune response that cross react with self (ex.
    Streptococcus pyogenes infection ? rheumatic
    fever because the antibodies created are binding
    to the heart short term effect only shigella,
    salmonella, Yersina, camplyobactor infection ?
    reactive arthritis)

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8
O organ-specific, S systemic
This chart is taken from http//microvet.arizona
.edu/Courses/MIC419/Tutorials/autoimmunity.html
9
Risk factors
  • HLA (major class of histocompatibility antigens
    in humans) genes usually a specific class I or
    II HLA allele
  • Hypothesis 1 HLA allele that are better at
    presenting pathogen peptides similar the to self.
    (ex. HLA B27 class I allele, might bind self
    peptide in absence of tapasin (during an
    infection, tapasin is involved in peptide
    loading), may induce autoimmunity this allele
    is associated with an 80 fold increase risk of
    ankylosing spondylitis)
  • Hypothesis 2 HLA allele that are less capable at
    presenting pathogen peptides similar to self
    peptide. (ex. HLA DR3, DR4 and HLA DQ beta which
    are associated with type I diabetes)
  • Regular HLA DQ beta has a aspartic acid 57, but a
    mutation to valine, serline, alanine - unable to
    form usually salt bridge ? class II molecule
    instability, altered binding affinity
  • Hypothesis these mutation affect negative
    selection of pancreatic islet beta-cell specifc
    T-cell ? increase risk of diabetes
  • Identical twins 20 concordance of autoimmune
    disease showing that genes are not the only
    determining factor
  • Sex difference (ex. Womens risk of MS or SLE is
    approx. 10-20x greater than men, which mens risk
    of ankylosing spondylitis is 3x than women)
  • Associated with infections (hypothesis induce
    inflammatory response that stimulate APC that may
    activate specific autoimmune T cells)

10
Types of Damage
  • By antibodies (possible to id antigen) ? type II
    pr type III hypersensitivity
  • Antibodies can bind to RBC and initiate
    complement system ? cell lysis opsinization
    (increase phagocytosis)
  • Antibodies can bind to cell-membrane
    receptors(ex. May bind to TSH receptor in
    thyroid ? overproduction of thyroid hormone)
  • Antibodies can bind to the basement membranes
    type IV collagen(of liver, of kidney)
  • IgG production for many self-antigens ? binding
    all overall the body and activating the
    complement system (ex. Systemic lupus
    erythematosis)
  • Prolong infection ? continuous production of
    antibodies at a specific site can lead to type
    III sensitivity ? tissue damage
  • By T-cells
  • Ex. In rheumatoid arthritis, insulin-dependent
    diabetes
  • Release of lymphokines
  • Pore formation on target cells membrane by
    perforins

11
RHEUMATOID ARTHRITIS
  • Diagnosis
  • 1. Morning stiffness gt1hr
  • 2. Arthritis/Inflammation in gt3 joints including
    1 in the hand
  • 3. Symmetric
  • 4. Subcutaneous nodules present
  • 5. Rheumatoid Factor
  • 6. Joint erosion

12
Signs and Symptoms
  • Vary from person to person, but patients are more
    likely to be female
  • Can start in any joint but usually starts in the
    smaller ones  fingers, hands, wrists
  • Joint involvement is usually symmetrical (ex.
    Left right hands)
  • More joint erosion the more severe the disease
  • Symptoms may come and go, but it is a LIFETIME
    disease
  • Flares of disease activity followed by remission
    (cycles)
  • Fatigue
  • Stiffness of joints esp. in the morning
  • Usually, the longer the morning stiffness the
    more severe the disease
  • Weakness
  • Flu-like symptoms
  • Low-grade fever
  • Pain from pro-longed sitting
  • Muscle pain
  • Loss of appetite, depression, anemia, weight
    loss, cold/sweaty hands feet
  • Decreased production of tears and saliva
  • Rheumatoid nodules underneath the skin usually
    at elbows
  • Indicates more severe disease
  • Damage to cartilage, tendons, ligaments, and bone

13
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14
Stages of Progression
  • 3 Stages of Progression
  • 1st swelling of the synovial lining
  • Pain, warmth, stiffness, redness, swelling around
    the joint
  • 2nd rapid division and growth of the synovial
    cells
  • Synovium thickens (ie. Pannus formation)
  • 3rd inflamed cells release enzymes which may
    digest bone and cartilage
  • Joint loses shape and alignment
  • Pain and loss of movement

15
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16
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17
Etiology
  • Unknown
  • Many theories  genes, environment, hormones are
    all contributory factors
  • Genetics
  • People with the genetic marker HLA-DR4 at
    increased risk of getting RA

18
cy
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20
Relevance to Pharmacy
  • RA is a chronic disease and patients benefit from
    long-term treatment
  • There are both drug and non-drug options to this
    common medical condition that pharmacists should
    be aware of
  • No treatment provides a cure (yet)

21
Pharmaceutical Options
  • Biologics (lowers immune systems ability to
    fight infections)    - Enbrel        -tumor
    necrosis factor (TNF) blocker    - Abatacept
    (Orencia)        - costimulation modulator
  • Non-Steroidal Anti-Inflammatory Drugs
    (NSAIDS)    - i.e. Ibuprofen, Indomethacin,
    Ketoprofen
  • Corticosteroids    - Prednisone
  • Disease-Modifying Anti-Rheumatic Drugs
    (DMARDs)    - more potent, usually in addition
    to NSAIDs    - actually helps slow down the
    destruction of joints    - i.e. methotrexate,
    azathioprine, gold

22
Non-Drug Options
  • Regular exercise
  • Diet including
  • 1) Omega-3 Fatty Acids strong evidence of
    efficacy, decreases production of inflammatory
    chemicals
  • 2) Gamma-linolenic Acid need further studies
  • 3) Boswellia in an Indian tree blocks
    inflammation
  • 4) Devil's Claw (secondary root) works as well
    as Vioxx? - active ingredient hypothesized to
    be iridoid glycosides called harpagosides

23
References
  • 1) Janet M. Decker. Autoimmunity Immunology.
    Aug 2003. University of Arizona. Available at
    http//microvet.arizona.edu/Courses/MIC419/Tutoria
    ls/autoimmunity.html      
  • 2) Dr Abdul Ghaffar. Tolerance and Autoimmunity
    Microbiology and Immunology Online.2004.
    University of South Carolina. Available at
    http//pathmicro.med.sc.edu/ghaffar/tolerance2000.
    htm
  • 3) Berg, Jeremy. Stryer, Lubert. Tymoczko, John
    L. Biochemistry 6th edition. New York. W.H.
    Freeman and Company. 2007.
  • 4) Raven, Johnson, Losos, Singer. Biology Seventh
    Edition. New York. McGraw-Hill. 2005
  • 5) Arthritis Foundation. Rheumatoid Arthritis.
    2007. Accessed February 2008. http//www.arthritis
    .org/disease-center.php?disease_id31dfcauses
  • Fritsche K. Fatty acids as modulators of the
    immune response. Annu Rev Nutr. 26 (2006) 45-73.
  • 6) Lee S, Gura KM, Kim S, Arsenault DA, Bistrian
    BR, Puder M. Current clinical applications of
    omega-6 and omega-3 fatty acids. Nutr Clin Pract.
    21.4 (2006) 323-341.
  • 7) Remans PH, Sont JK, Wagenaar LW,
    Wouters-Wesseling W, Zuijderduin WM, Jongma A,
    Breedveld FC, Van Laar JM. Nutrient
    supplementation with polyunsaturated fatty acids
    and micronutrients in rheumatoid arthritis
    clinical and biochemical effects. Eur J Clin
    Nutr. 58.6 (2004) 839-845.
  • 8) Soeken KL, Miller SA, Ernst E. Herbal
    medicines for the treatment of rheumatoid
    arthritis a systematic review. Rheumatology
    (Oxford). 42.5 (2003) 652-659.
  • 9) MediResource Inc. Are you getting the RA
    medication that's best for you? C-Health. 2008.
    Accessed February 2008. http//chealth.canoe.ca/ch
    annel_section_details.asp?text_id3304channel_id
    160relation_id16766
  • Images Used
  • Chronic Inflammatory Pain Control With Omega-5etm
    . Alphaflex. Sierra Life Sciences INC. 2007.
    Accessed February 2008. http//www.alphaflex.com/r
    esearch.html
  • Rheumatoid Arthritis. Altmed. Creighton
    University Medical Centre. 2005.
  • Accessed February 2008 http//altmed.creighton.ed
    u/FishOil/rheumatoidoverview.htm
  • Rheumatoid Arthritis. Medical Look. Accessed
    February 2008. http//www.medicalook.com/Joint_pai
    n/Rheumatoid_arthritis.html
  • Rheumatoid Arthritis. Orthopod. 2003. Accessed
    February 2008. http//www.eorthopod.com/public/pat
    ient_education/6596/rheumatoid_arthritis.html

24
Summary
  • Autoimmune diseases are caused by a failure of
    the immune system to recognize self from non-self
  • Self antigens are mistaken for foreign and the
    immune system attacks self through the release of
    cytokines, antibodies and by cytotoxic cells
    leading to tissue damage (organ specific or
    systemic)
  • Rheumatoid Arthritis etiology unknown
  • Tumour Necrosis Factor (TNF) induces apoptosis of
    cells resulting in cartilage and bone damage in
    RA Interleukin 1 (IL 1) are also released during
    the immune response
  • Risk factors for RA include genetics,
    environment, hormones
  • Pharmaceuticals Biologics (ENBREL, Abatacept),
    NSAIDS, Corticosteroids, DMARDs (methotrexate,
    azathioprine, gold)
  • Non-pharmaceuticals Exercise, Diet (Omega-3
    Fatty Acids, Gamma-linolenic Acid, Boswellia,
    Devil's Claw)
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