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Antibodies Formerly Known as ‘High-Titer, Low-Avidity (HTLA) Antibodies’ : a review. Jackie Ensley, MLS(ASCP)SBB Mississippi Valley Regional Blood Center 1 Objectives • Describe serology observed with these antibodies • Review the blood group systems/collections associated with this reactivity • Discuss how MVRBC handles and reports out these antibodies • Outline how to approach identification of these antibodies 2 Terminology • What do we call this reactivity? o Currently, the term ‘HTLA antibody’ is not considered the best terminology. HTLA stood for High Titer, Low Avidity antibody and is a description, not an identification of the antibody o There has been no official decision in the blood bank community on what to call these antibodies and many facilities are struggling to come up with appropriate terminology o On April 24th Medical Director Dr. Bruce Marshall is attending two seminars regarding this ever-evolving issue and more united decisions may come from these. 3 MVRBC terminology • MVRBC has started using ‘Antibody of Undetermined Specificity’ if the actual identity of the antibody can not be determined. • In attempting to identify the antibody techs will use the chemicals and reagent cells available in the lab to define the serological reactions. o Example: Antibody reactivity decreased with ficin, decreased with .2M DTT • This indicates anti-JMH but we may not have the antigen negative cells available to completely identify as these cells are rare and hard to find. May be able to say ‘Probable anti-JMH’ or leave as antibody of undetermined specificity 4 MVRBC terminology • Moving forward, the MVRBC Reference Labs have come up with specific terminology to help better define these antibodies, and to enhance the communication and understanding with our hospitals • The following slides show specific examples that may be encountered Example 1 • The specificity of the antibody is determined for sure o NOTE: With the 2nd arrow we will be attempting to inform the hospital whether this unusual antibody is clinically significant or not. Example 2 • Probable Antibody of _____ Classification o The lab can classify the antibody but can not put a single specificity to the antibody Example 3 • Antibody of Undetermined Specificity (formerly called HTLA) o NOTE: The 2nd arrow shows the lab will describe the reactivity of the antibody Example 4 • HTLA-like Antibody of Undetermined Specificity o Will be used for clarity with our hospitals o Note: the second arrow shows the lab will describe the reactivity of the antibody Example 5 • Antibody of Undetermined Specificity o Not HTLA antibodies o Truly unknown antibody, everyone comes across these o May follow with phrase ‘future testing may allow ID’ o May include phrase such as ‘Antibody to a low frequency antigen’ What distinguishes this category? • Reacts with majority of panel cells • Frequently described as “reactive weakly by the antiglobulin test.” o Reactions are very weak and will break apart very readily due to the weak attraction between the antigens and antibodies (low avidity). o Repeated reactions may be irreproducible and not give the same strength or reactivity • However, reactions of 1-2+ have also been seen using gel technique. 11 What distinguishes this category? • These antibodies are not clinically significant • Weak reactivity with high titers >64 are characteristic, but titers below 64 have also been seen. A high titer does not give us a specificity, but can help the lab determine if they are on the right track with identification. o MVRBC has stopped using titers on a regular basis to identify these antibodies. We find it is more conclusive to rely on serological reactions than the titer value. However, for MVRBC the titer is still available to use as an identification aid. 12 Titer Reactivity Example 1:1 1:2 1:4 1:8 1:16 1:32 1:64 1:128 1:256 1:512 1:1024 1:2048 W+ W+ W+ +/- +/- +/- +/- +/- 0√ 0√ 0√ Titer: 128 13 0√ How do I know when I have one of these antibodies? • Most times is a process of elimination, all other possible antibodies or combination of antibodies is ruled out. • Reactivity is not explained and doesn’t seem to follow any pattern • Need to run enough cells so exclude possibility of any other alloantibodies being present 14 Suspecting these antibodies • Usually negative DAT, but each patient is different with unique history, diagnosis and treatment plans • Reaction pattern suggests an antibody to a high-frequency antigen, and all or most cells are reactive at IgG. • Reactions do not seem to fit a specific antibody or combination of antibodies pattern 15 Suspecting these antibodies • 1-2 phenotypically similar cells are run and are reactive • Theoretically should not adsorb out of the plasma because of the low-avidity of the antibody 16 Example D C c E e K k Fya Fyb Jka Jkb Lea Leb P1 M N S s Gel PeG 1 0 0 + 0 + + + + + + 0 0 + + + 0 0 + 1+ W+ 2 0 0 + 0 + 0 + + + 0 + 0 + 0 0 + 0 + 2+ W+ 3 0 0 + 0 + + + 0 + + 0 0 + + + 0 + 0 0 0√ 4 + + 0 0 + 0 + + 0 + 0 + 0 + + + 0 + 1+ W+ 5 + 0 + + 0 0 + 0 + + 0 + 0 + + 0 0 + 1+ +/- 6 + 0 + + 0 0 + 0 + 0 + 0 + + + 0 + 0 1+ 1+ 7 + 0 + + 0 0 + + 0 + + 0 + + + + + + W+ W+ 8 0 + + 0 + 0 + + 0 0 + 0 + + + 0 + + 1+ 1+ 17 Antibodies with HTLA Activity • • • • Chido/Rodgers System JMH System Knops System COST Collection 18 Chido/Rodgers System • Anti-Ch was reported in 1967 and anti-Rg was reported in 1976 o Named after the first antibody producers, Chido and Rodgers. • Function: Part of the complement cascade. Ch and Rg are antigen determinants located on the fourth component of complement (C4), which becomes bound to RBCs from the plasma. 19 Chido/Rodgers System: Phenotypes • Chido/Rodgers describes the cluster of antigen determinants on C4. o Individuals can form antibodies to the epitopes they lack Chido Ags % occurrence Rodgers Ags % occurrence CH/RG:1, 2, 3 88.2% CH/RG:11, 12 95% CH/RG:1, -2, 3 4.9% CH/RG:11, -12 3% CH/RG: 1, 2, -3 3.1% CH/RG:-11, 12 2% CH/RG:-1, -2, -3 3.8% CH/RG:-1, 2, -3 rare CH/RG:1, -2, -3 rare 20 Chido/Rodgers: Disease Associations • Disease Associations: o Ch- (Lack of C4b) gives increased susceptibility to bacterial meningitis in children. o Rg- individuals (lack of C4a) have a much greater susceptibility for SLE. 21 Chido/Rodgers: Neutralization • Antibodies are neutralized by plasma, which has Ch/Rg. This helps in identification: o Control plasma • Equal volumes of patient plasma and 6% albumin o Neutralized plasma • Equal volumes of patient plasma and pooled plasma • Test the control and neutralized plasmas with known incompatible panel cells at same method where original incompatibility was seen • Control needs to be reactive, Neutralized will be nonreactive to confirm Chido/Rogers 22 Chido/Rodgers: Neutralization Original plasma reactivity Control plasma reactivity Neutralized plasma reactivity 1+ 1+ 0√ 1+ 1+ 0√ 2+ 2+ 0√ 1+ 1+ 0√ 1+ 1+ 0√ 1+ 1+ 0√ 1+ 1+ 0√ 23 Chido/Rodgers: Chemical Effects Effect of Enzymes Ficin / papain Sensitive Trypsin Sensitive α-Chymotrypsin Sensitive Pronase Sensitive Sialidase Resistant DTT 200 mM Resistant Acid Resistant 24 JMH System • JMH became a system in 2000 after it was shown that the JMH antigen is carried on the GPI-linked CD108 glycoprotein. • Named after the first antibody producer, John Milton Hagen o Also called ‘old boys’ antibody 25 JMH System: GPI-Linked • Glycosylphosphatidylinositol (GPI anchor) is a glycolipid that anchors proteins to the cell membrane. o Defects in the GPI anchors synthesis occur in diseases such as paroxysmal nocturnal hemoglobinuria (PNH) 26 JMH System: Chemical effects Effect of Enzymes Ficin / papain Sensitive Trypsin Sensitive α-Chymotrypsin Sensitive Pronase Sensitive Sialidase Resistant DTT 200 mM Sensitive Acid Resistant 27 Knops System • Reported in 1970, Knops was established as a system in 1992 when the antigens were found to be located to CR1. • What is CR1? o Complement receptor 1 (CR1) is a membrane-bound glycoprotein found on most blood cells, except platelets. 28 Knops System: What is CR1? • CR1 binds C3b and C4b and has an inhibitory effect on complement activation by classical and alternative pathways, protecting RBCs from autohemolysis. • Erythrocyte CR1 is important in processing immune complexes by binding them for transport to the liver and spleen for removal from the circulation. • As CR1 binds particles coated with C3b and C4b, it mediates phagocytosis by neutrophils and monocytes. The presence of CR1 on other blood cells and tissues suggests it has multiple roles in the immune response, for example, activation of B lymphocytes. 29 Knops System: Disease Associations • Low levels of CR1 on RBCs may result in deposition of immune complexes on blood vessel walls with subsequent damage to the walls. • Knops antigens (CR1 copy number) depressed in SLE, PNH, hemolytic anemia, insulin-dependent diabetes mellitus, AIDS, some malignant tumors, any condition with increased clearance of immune complexes. 30 Knops System: Important Phenotypes Phenotypes (% occurance) Caucasians Blacks Kn(a+b-) 94.5 99.9 Kn(a-b+) 1 0 Kn(a+b+) 4.5 0.1 McC(a+) 98 94 Sl(a+) aka Sl1 98 60 Yk(a+) 92 98 Null: Some RBCs (e.g. Helgeson) type as Kn(a-b-), McC(a-), Sl(a-) and Yk(a-) because these RBCs have low copy numbers of CR1 (approximately 10% of normal). Most recent antigen added 2005: KCAM+ causcasians:98%, West Africans 20% 31 Knops System: Important note • Anti-Sla is a common specificity produced by Blacks and initially may be confused with anti-Fy3 because most Fy(ab-) RBCs are also likely to be Sl(a-). Phenotypes (% occurance) Sl(a+) aka Sl1 Caucasians 98 32 Blacks 60 Knops System: Reactivity • Reactions Effect of enzymes Ficin / papain Weakened (especially ficin) Trypsin Sensitive α-Chymotrypsin Sensitive Pronase Resistant Sialidase Resistant DTT 200 mM Sensitive Acid Resistant 33 COST • Also known as Cost-Stirling • Five of the original antigens from this collection are in the Knops system because they are carried on CR1. • Csa has variable expression on RBCs from different people. RBCs of approximately 12% Caucasians and 15% Blacks with the Yk(a-) phenotype are also Cs(a-). 34 COST • Csa Most populations Blacks • Csb Most populations >98% 96% 34% 35 COST • Reactions Effect of enzymes Ficin / papain Resistant Trypsin Resistant α-Chymotrypsin Resistant Pronase Resistant Sialidase Resistant DTT 200 mM Variable Acid Resistant 36 Comparison Ficin/ Papain Trypsin αChymot rypsin Pronase Sialidas e DTT 200 Acid mM Ch/Rg Sensitive Sensitive Sensitive Sensitive Resistant Resistant Resistant JMH Sensitive Sensitive Sensitive Sensitive Resistant Sensitive Resistant Knops Weakened (especially ficin) Sensitive Sensitive Resistant/ weakened Resistant Sensitive Resistant COST Resistant Resistant Resistant Resistant Resistant Variable Resistant 37 Other Can be neutralized with pooled plasma DTT Treatment • .2M DTT treatment denatures Knops and JMH, but also many other antibodies not associated with high titer, low avidity reactivity. Be Careful! • Other systems denatured: o Cromer, Dombrock, Ge3, Indian, Kell, Lutheran, Scianna, Yta 38 Compatibility • Most red cell units will be incompatible • MVRBC recommends least incompatible red blood cells as providing antigen negative blood is not feasible • These antibodies are not clinically significant. Present data indicates these antibodies do not cause increased red cell destruction when incompatible blood is transfused or hemolytic disease of the newborn. o Transfusion. 2007 Jul;47(7):1290-5. Do patients with autoantibodies or clinically insignificant alloantibodies require an indirect antiglobulin test crossmatch? By Lee, E. et al. 39 Summary • They don’t always act like we thought they do, especially that gel is used so often. And we don’t call them what we used to. • Chemical treatments are usually more helpful than titration studies • Identification relies heavily on exclusion of the other ‘usual suspects’ 40 Questions? Thank you! 41 Good Articles for Reference • IMMUNOHEMATOLOGY, Volume 26, Number 1, 2010. 3038. A review of the Chido/Rodgers Blood Group. By R. Mougey • IMMUNOHEMATOLOGY, Volume 26, Number 1, 2010. 2-7. The Knops blood group system: a review. By J.M.Moulds 42