Type: Oral
Session: 654. MGUS, Amyloidosis and Other Non-Myeloma Plasma Cell Dyscrasias: Clinical and Epidemiological: From Light Chain to Fibril–Novel Diagnostics to Treatments for Amyloidosis
Hematology Disease Topics & Pathways:
Research, Clinical Practice (Health Services and Quality), Diseases, Therapies, Technology and Procedures, Minimal Residual Disease
Contrary to non-amyloidogenic, aFLCs are kinetically and oftentimes thermodynamically unstable. aFLCs are prone to misfolding and formation of pathogenic conformations such as non-native structures, proteolytic fragments, soluble aggregates, and amyloid fibrils. We exploited such characteristics of aFLCs by applying limited proteolysis using Proteinase K, where less stable λ aFLC proteins readily yield a 23KDa fragment composed of the homodimeric LC constant domain (dLCCD) linked by a disulfide bond. Formation of the dLCCD fragment reveals a highly conserved, novel, cryptic epitope at the N-terminus of the fragment. We have generated monoclonal antibodies (mAbs) that explicitly bind to such novel epitope and developed immunoassays for the specific detection and sensitive quantification of λ aFLCs in biological samples.
Western blot or Meso Scale Discovery (MSD) analyses were employed to detect and quantify dLCCD signal using the dLCCD mAbs on plasma samples from randomly selected, treatment naïve and λ-restricted cases with biopsy-proven AL amyloidosis before and after exposure to optimized proteolytic conditions. Tissue amyloid deposits of λ-type were confirmed in most AL cases. Informed consent for data and plasma sample collections were obtained from the Institutional Review Boards and in accordance with the Declaration of Helsinki. Multiple myeloma (MM) plasma samples of unknown LC restriction type, treatment or amyloid deposits status and normal volunteer control samples were purchased from BioIVT (USA). A set of representative results based on three runs are shown in Fig. 1. As little as 2 µL of biofluid was used for each assay.
Upon limited proteolysis, dLCCD signal was detected in 32 of 35 AL plasmas, including two samples from patients with AL-associated IgM lymphoplasmacytic lymphoma (LPL). Of the three dLCCD negative AL samples, one presented with monoclonal IgAλ, and two cases were bi-clonal on serum immunofixation electrophoresis. dLCCD signal was not detected in 18 of 19 MM plasma samples. Similarly, dLCCD signal was undetectable in 23 normal plasmas. Overall, the dLCCD signals detected in AL plasmas were 10x-200x above that of normal control and most MM samples (Fig. 1). The low limit of quantification of the MSD assay was ~0.4 ng/dL (1.4 pM), with >500x dynamic range, enabling sensitive and robust quantification of λ aFLCs in biosamples. Analysis of Proteinase K recognition potential of the cleavage site of 389 λ LC sequences from the AL-Base, a database of amyloidogenic LC sequences (https://wwwapp.bumc.bu.edu/BEDAC_ALBase/) predicted that the dLCCD assay can detect λ aFLCs in up to 99% of λ AL patients, irrespective of the FLC sequences. This was confirmed with the 100% detection rate of the dLCCD signal in a validation cohort of 35 additional monoclonal λ-restricted AL samples.
In summary, we have developed a quantitative blood-based immunoassay that is sensitive and highly specific for λ aFLC irrespective of the protein sequences. The preliminary data demonstrates the potential of our assay for AL diagnostics. Additional clinical applications for future exploration will include (i) monitoring and early detection of AL amyloidosis in plasma cell dyscrasias (monoclonal gammopathy of unknown significance, MM, and smoldering MM) and lymphoproliferative disorders, including LPL; and (ii) clinical management of patients with AL amyloidosis via the assessment and monitoring of minimal residual disease and therapeutic responses. The utility of the dLCCD assay in the quantification of λ aFLCs in bi-clonal AL cases warrants further investigation.
Disclosures: Jiang: Protego Biopharma: Current Employment, Current equity holder in private company. Wang: Protego Biopharma: Current Employment, Current holder of stock options in a privately-held company. Li: Protego Biopharma: Current Employment, Current holder of stock options in a privately-held company. Jackman: Protego Biopharma: Current Employment, Current holder of stock options in a privately-held company. Flaherty: Protego Biopharma: Current Employment, Current holder of stock options in a privately-held company. Rogers: Protego Biopharma: Current Employment, Current holder of stock options in a privately-held company. Muchtar: Protego: Consultancy. Dispenzieri: Oncopeptides, Sorento: Consultancy; Alnylam, Bristol-Myers Squibb, Janssen, Pfizer, Takeda: Research Funding; Janssen: Membership on an entity's Board of Directors or advisory committees. Spencer: Janssen, Alexion, Protego, Attralus and Immunome: Research Funding. Sanchorawala: Janssen, Alexion, Prothena, Celgene, Takeda, Abbvie, Regeneron, Pfizer, AstraZeneca: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Research Funding. Prokaeva: Janssen, Alexion, Protego, Attralus and Immunome: Research Funding. Labaudiniere: Protego Biopharma: Current Employment, Current holder of stock options in a privately-held company.