Heparin-induced thrombocytopenia (HIT) is a severe complication of heparin therapy, driven by IgG antibodies (Abs) that target platelet factor 4 (PF4) bound to heparin, resulting in platelet activation and a pro-thrombotic state. The PF4/Heparin (PF4/H) ELISA is the most commonly used screening assay for HIT due to its wide accessibility and high sensitivity. Despite its limited specificity, resulting in only a small fraction of positive cases progressing to actual HIT, PF4/H ELISA remains a critical tool in initial diagnostics.

It is generally believed that HIT patients produce two types of Abs - those that bind to PF4/H and may or may not activate platelets. However, there are documented but rare HIT cases with an atypical profile: Abs testing negative in the PF4/H ELISA (ELISA-) but capable of platelet activation, suggesting the presence of a third type of Abs - those that activate platelets but can't recognize PF4/H complex. Since a PF4/H ELISA- result typically excludes an HIT diagnosis, overseeing these cases could lead to the resumption of heparin, potentially resulting in life-threatening thrombosis. Additionally, in HIT cases with a positive ELISA test profile, or classic HIT cases, levels of platelet-activating Abs and PF4/H-reactive Abs are not always correlated, suggesting the presence of ELISA- platelet-activating Abs. We thus investigated whether ELISA- platelet-activating Abs are present in classic HIT.

To identify and characterize ELISA- Abs at the serological level, we firstly purified IgG Abs from the plasma of 5 healthy donors (HD) and 8 HIT patients using protein A beads, followed by the depletion of PF4/H-binding Abs using PF4/H-coated Sepharose beads. The efficiency of IgG purification and PF4/H-specific IgG depletion was confirmed by IgG and PF4/H ELISA. P-selectin expression assay (PEA) was conducted to evaluate the platelet activating ability of purified IgG pre and post depletion of PF4/H-specific Abs. We found that variable, but significant levels of platelet-activating Abs exist in the PF4/H non-reactive IgG portion in all 8 HIT samples, but none of the HD samples. Closely resembling those found in the PF4/H-reactive Abs in HIT patients' plasma, platelet activation induced by post-depletion Abs relied on exogenous PF4 and FcγRIIa and was inhibited by high-dose heparin. These data demonstrate that PF4/H non-reactive IgG Abs coexist with PF4/H-reactive Abs and may contribute to platelet activation in HIT patients.

To verify these findings at the clonal level, we conducted single B-cell culture to induce antibody secretion by the cultured B cells from patients experiencing clinical manifestations of HIT. We screened clonal Abs made by 1506 single IgG1+ B cells isolated from peripheral blood mononuclear cells (PBMCs) of seven HIT patients and identified 18 clones capable of platelet activation. Of these, 13 were unable to bind to PF4/H. The functionality of these Abs was confirmed by recombinant Abs derived from single B-cell clones. This finding suggests that PF4/H non-reactive platelet-activating Abs exist at a higher frequency than those that bind to PF4/H. Interestingly, even though these Abs tested negative in the PF4/H ELISA, they were able to bind to the surface of PF4-treated platelets, and their platelet activation ability correlated with platelet binding affinity, suggesting a potential method for their detection.

In summary, our study identified a novel group of potentially pathogenic Abs in HIT that, while unable to recognize the PF4/H complex, can bind to the PF4-coated platelet surface. These Abs frequently coexist with PF4/H-binding pathogenic Abs and may contribute to HIT pathogenesis. These insights will enrich our understanding of HIT pathogenesis and may pave the way for more advanced diagnostic and therapeutic strategies.

Disclosures

Pabmanabhan:Retham technologies, Mayo Clinic, Versiti: Divested equity in a private or publicly-traded company in the past 24 months, Other: Officer, Patents & Royalties.

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