Monoclonal antibody therapeutics as potential interferences on protein electrophoresis and immunofixation

AbstractThe use of therapeutic recombinant monoclonal antibodies (mAbs) has triggered concerns of mis-diagnosis of a plasma cell dyscrasia in treated patients. The purpose of this study is to determine if infliximab (INF), adalimumab (ADA), eculizumab (ECU), vedolizumab (VEDO), and rituximab (RITU) are detected as monoclonal proteins by serum protein electrophoresis (SPEP) and immunofixation electrophoresis (IFE).Pooled normal sera were spiked with various concentrations (ranging from trough to peak) of INF, ADA, ECU, VEDO and RITU. The peak concentration for VEDO and RITU was also added to samples with known monoclonal gammopathies. All samples were analyzed by SPEP (Helena Laboratories) and IFE (Sebia); sera containing peak concentrations of mAbs were reflexed to electrospray-time-of-flight mass spectrometry (AbSciex Triple TOF 5600) for the intact light chain monoclonal immunoglobulin rapid accurate mass measurement (miRAMM).For all mAbs tested, no quantifiable M-spikes were observed by SPEP at any concentration analyzed. Small γ fraction abnormalities were noted on SPEP for VEDO at 300 μg/mL and RITU at 400 μg/mL, with identification of small IgG κ proteins on IFE. Using miRAMM for peak samples, therapeutic mAbs light chain accurate masses were identified above the polyclonal background and were distinct from endogenous monoclonal gammopathies.MAbs should not be easily confounded with plasma cell dyscrasias in patients undergoing therapy except when a SPEP and IFE are performed within a couple of days from infusion (peak). In ambiguous cases the use of the miRAMM technology could precisely identify the therapeutic mAb distinct from any endogenous monoclonal protein.

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Laboratory testing requirements for diagnosis and follow-up of multiple myeloma and related plasma cell dyscrasias

Clinical Chemistry and Laboratory Medicine (CCLM) ◽

10.1515/cclm-2015-0580 ◽

2016 ◽

Vol 54 (6) ◽

Cited By ~ 13

Author(s):

Maria A.V. Willrich ◽

Jerry A. Katzmann

Keyword(s):

Multiple Myeloma ◽

Serum Protein ◽

Plasma Cell ◽

Light Chain ◽

Cell Clone ◽

Protein Electrophoresis ◽

Free Light Chain ◽

Molecular Weights ◽

Immunofixation Electrophoresis ◽

Monoclonal Proteins

AbstractMonoclonal immunoglobulins are markers of plasma cell proliferative diseases and have been described as the first (and perhaps best) serological tumor marker. The unique structure of each monoclonal protein makes them highly specific for each plasma cell clone. The difficulties of using monoclonal proteins for diagnosing and monitoring multiple myeloma, however, stem from the diverse disease presentations and broad range of serum protein concentrations and molecular weights. Because of these challenges, no single test can confidently diagnose or monitor all patients. Panels of tests have been recommended for sensitivity and efficiency. In this review we discuss the various disease presentations and the use of various tests such as protein electrophoresis and immunofixation electrophoresis as well as immunoglobulin quantitation, free light chain quantitation, and heavy-light chain quantitation by immuno-nephelometry. The choice of tests for inclusion in diagnostic and monitoring panels may need to be tailored to each patient, and examples are provided. The panel currently recommended for diagnostic screening is serum protein electrophoresis, immunofixation electrophoresis, and free light chain quantitation.

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Elimination of the Need for Urine Studies during Diagnostic Studies of Monoclonal Gammopathies by the Combined Use of Serum Immunofixation and Serum Free Light Chain Assays.

Blood ◽

10.1182/blood.v108.11.5011.5011 ◽

2006 ◽

Vol 108 (11) ◽

pp. 5011-5011

Author(s):

Jerry A. Katzmann ◽

Angela Dispenzieri ◽

Robert Kyle ◽

Melissa R. Snyder ◽

Mathew F. Plevak ◽

...

Keyword(s):

Light Chain ◽

Monoclonal Gammopathy ◽

Diagnostic Algorithm ◽

Protein Electrophoresis ◽

Free Light Chain ◽

Urine Protein ◽

Serum Free ◽

Monoclonal Gammopathies ◽

Serum Free Light Chain ◽

Monoclonal Proteins

Abstract Due to the diagnostic sensitivity of serum free light chain quantitation for monoclonal light chain diseases, it has been suggested that urine assays no longer need be performed as part of the diagnostic algorithm for monoclonal proteins. We reviewed our experience to determine the relative diagnostic contribution of urine assays. Methods: Patients with a monoclonal gammopathy and monoclonal urinary protein at initial diagnosis who also had a serum immunofixation and serum free light chain quantitation within 30 days of diagnosis were identified (n = 428). The laboratory results for serum protein electrophoresis, serum immunofixation, serum free light chain, urine protein electrophoresis, and urine immunofixation were reviewed. Results: The patients in this cohort had diagnoses of multiple myeloma, primary amyloid, monoclonal gammopathy of undetermined significance, smoldering multiple myeloma, solitary plasmacytomas, and other less frequently detected monoclonal gammopathies. By definition of the cohort, all 428 had a monoclonal urine protein. 86% had an abnormal serum free light chain K/L ratio, 81% had an abnormal serum protein electrophoresis, and 94% had an abnormal serum immunofixation. In only 2 patients, however, were all 3 serum assays normal. Both of these were patients with monoclonal gammopathy of undetermined significance (idiopathic Bence Jones proteinuria). Conclusion: Discontinuation of urine studies and reliance on a diagnostic algorithm using solely serum studies (protein electrophoresis, immunofixation, and free light chain quantitation), missed 2 of the 428 monoclonal gammopathies (0.5 %) with urinary monoclonal proteins, and these 2 cases required no medical intervention.

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Recommendations for Use of Free Light Chain Assay in Monoclonal Gammopathies

Journal of Medical Biochemistry ◽

10.2478/v10011-009-0034-7 ◽

2010 ◽

Vol 29 (1) ◽

pp. 1-8 ◽

Cited By ~ 3

Author(s):

Vesna Radović

Keyword(s):

Plasma Cell ◽

Light Chain ◽

High Sensitivity ◽

Protein Electrophoresis ◽

Free Light Chain ◽

Light Chains ◽

Free Light Chains ◽

Bone Marrow Biopsies ◽

Monoclonal Gammopathies ◽

Plasma Cell Disorders

Recommendations for Use of Free Light Chain Assay in Monoclonal GammopathiesThe serum immunoglobulin free light chain assay measures levels of free κ and λ immunoglobulin light chains. There are three major indications for the free light chain assay in the evaluation and management of multiple myeloma and related plasma cell disorders. In the context of screening, the serum free light chain assay in combination with serum protein electrophoresis and immunofixation yields high sensitivity, and negates the need for 24-hour urine studies for diagnoses other than light chain amyloidosis. Second, the baseline free light chains measurement is of major prognostic value in virtually every plasma cell disorder. Third, the free light chain assay allows for quantitative monitoring of patients with oligosecretory plasma cell disorders, including AL, oligosecretory myeloma, and nearly twothirds of patients who had previously been deemed to have non-secretory myeloma. In AL patients, serial free light chains measurements outperform protein electrophoresis and immunofixation. In oligosecretory myeloma patients, although not formally validated, serial free light chains measurements reduce the need for frequent bone marrow biopsies. In contrast, there are no data to support using free light chain assay in place of 24-hour urine electrophoresis for monitoring or for serial measurements in plasma cell disorders with measurable disease by serum or urine electrophoresis.

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Renal Pathologic Spectrum in an Autopsy Series of Patients With Plasma Cell Dyscrasia

Archives of Pathology & Laboratory Medicine ◽

10.5858/2004-128-875-rpsiaa ◽

2004 ◽

Vol 128 (8) ◽

pp. 875-879 ◽

Cited By ~ 7

Author(s):

Guillermo A. Herrera ◽

Lija Joseph ◽

Xin Gu ◽

Aubrey Hough ◽

Bart Barlogie

Keyword(s):

Plasma Cell ◽

Light Chain ◽

Plasma Cell Dyscrasia ◽

Al Amyloidosis ◽

Renal Infarction ◽

Light Chain Deposition Disease ◽

Renal Lesions ◽

Cast Nephropathy ◽

Plasma Cell Dyscrasias ◽

Light Chain Deposition

Abstract Context.—Renal dysfunction in plasma cell dyscrasias is common. It is the second most common cause of death in patients with myeloma. Objective.—We evaluated 77 sequential autopsies performed on patients dying from complications of plasma cell dyscrasias during an 11-year period at the University of Arkansas for Medical Sciences. These consisted of 15% of all the autopsies performed during this time. Design.—The kidneys were evaluated by light microscopy using hematoxylin-eosin–stained sections as well as Congo red and thioflavin T stains when amyloidosis was in the differential diagnosis. Immunofluorescence was performed on selected cases. Results.—The most common lesion identified was cast nephropathy (30%). Other findings included acute tubulopathy, AL-amyloidosis, light chain deposition disease, tubulointerstitial nephritis associated with monotypic light chain deposits, thrombotic microangiopathy, renal infarction, fungal infection, and plasma cell tumor nodules. Autolysis, an expected finding in autopsy evaluations, was significant in 25 cases. Conclusions.—Renal lesions are heterogeneous in these patients. In some cases, combined pathologic lesions were noted. Myeloma cast nephropathy predominated among all the renal lesions noted.

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Assessment of Monoclonal Gammopathies by Nephelometric Measurement of Individual Immunoglobulin κ/λ Ratios

Clinical Chemistry ◽

10.1373/clinchem.2009.123828 ◽

2009 ◽

Vol 55 (9) ◽

pp. 1646-1655 ◽

Cited By ~ 90

Author(s):

Arthur R Bradwell ◽

Stephen J Harding ◽

Nicolas J Fourrier ◽

Gregg L F Wallis ◽

Mark T Drayson ◽

...

Keyword(s):

Light Chain ◽

High Avidity ◽

Analytical Sensitivity ◽

Monoclonal Gammopathies ◽

Numerical Assessment ◽

Monoclonal Immunoglobulins ◽

Immunofixation Electrophoresis ◽

Dilution Experiments ◽

Monoclonal Proteins ◽

Chain Type

Abstract Background: Currently, monoclonal immunoglobulins are identified and quantified from bands on electrophoretic gels. As an alternative, clonality might be determined by measuring the separate light chain types of each Ig class to allow numerical assessment of Ig′κ/Ig′λ ratios, analogous to free light chain κ/λ ratios. Methods: Using immunization, tolerization, and adsorption procedures, we prepared sheep antibodies against each of the 6 separate molecules, IgGκ, IgGλ, IgAκ, IgAλ, IgMκ, and IgMλ. Antibody targets comprised the junctional epitopes between the heavy chain and light chain domains. After purification, we assessed the antisera on a Siemens Dade-Behring BN™ II nephelometer for analytical quality and clinical utility. Results: High-avidity, specific antibodies allowed the production of automated nephelometric immunoassays for each Ig light chain type. Laboratory comparison with serum protein electrophoresis, using dilution experiments, showed lower analytical sensitivity for monoclonal IgG detection but similar or greater sensitivity for IgA and IgM, particularly when the monoclonal bands overlaid transferrin. Results obtained from typing of monoclonal proteins into IgG, A, or M types were comparable with results obtained by immunofixation-electrophoresis methods. Initial clinical studies, in multiple myeloma patients, indicated that Ig′κ/Ig′λ ratios were sometimes more sensitive than immunofixation electrophoresis, provided numerical results, and correlated with changes in disease. Conclusions: Immunoassays for intact Ig κ/λ pairs are possible and should assist in the management of patients with monoclonal gammopathies.

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A monoclonal gammopathy precedes multiple myeloma in most patients

Blood ◽

10.1182/blood-2008-12-195008 ◽

2009 ◽

Vol 113 (22) ◽

pp. 5418-5422 ◽

Cited By ~ 331

Author(s):

Brendan M. Weiss ◽

Jude Abadie ◽

Pramvir Verma ◽

Robin S. Howard ◽

W. Michael Kuehl

Keyword(s):

Multiple Myeloma ◽

Serum Protein ◽

Plasma Cell ◽

Light Chain ◽

Monoclonal Gammopathy ◽

Protein Electrophoresis ◽

Serum Free ◽

Serum Free Light Chain ◽

Chain Analysis ◽

Immunofixation Electrophoresis

Preexisting plasma cell disorders, monoclonal gammopathy of undetermined significance, or smoldering myeloma are present in at least one-third of multiple myeloma patients. However, the proportion of patients with a preexisting plasma cell disorder has never been determined by laboratory testing on prediagnostic sera. We cross-referenced our autologous stem cell transplantation database with the Department of Defense Serum Repository. Serum protein electrophoresis, immunofixation electrophoresis, and serum free light-chain analysis were performed on all sera collected 2 or more years before diagnosis to detect a monoclonal gammopathy (M-Ig). In 30 of 90 patients, 110 prediagnostic samples were available from 2.2 to 15.3 years before diagnosis. An M-Ig was detected initially in 27 of 30 patients (90%, 95% confidence interval, 74%-97%); by serum protein electrophoresis and/or immunofixation electrophoresis in 21 patients (77.8%), and only by serum free light-chain analysis in 6 patients (22.2%). Four patients had only one positive sample within 4 years before diagnosis, with all preceding sera negative. All 4 patients with light-chain/nonsecretory myeloma evolved from a light-chain M-Ig. A preexisting M-Ig is present in most multiple myeloma patients before diagnosis. Some patients progress rapidly through a premalignant phase. Light-chain detected M-Ig is a new entity that requires further study.

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Amyloidosis and Plasma Cell Dyscrasias: A Single Institution Experience

Blood ◽

10.1182/blood-2019-131577 ◽

2019 ◽

Vol 134 (Supplement_1) ◽

pp. 5463-5463

Author(s):

Poornima Ramadas ◽

Ajay Tambe ◽

Mijung Lee

Keyword(s):

Mass Spectrometry ◽

Plasma Cell ◽

Light Chain ◽

Cardiac Involvement ◽

False Negative ◽

Protein Electrophoresis ◽

Plasma Cell Dyscrasia ◽

Al Amyloidosis ◽

Negative Mass ◽

High Clinical Suspicion

Background: Amyloidosis is the extracellular tissue deposition of small molecular subunits of proteins as fibrils. AL Amyloidosis is a complication of underlying plasma cell dyscrasia with an associated monoclonal paraprotein. It can occur in association with multiple myeloma (MM), Waldenstrom macroglobulinemia (WM) or non-Hodgkin lymphoma. While isolated organ involvement can be seen, many patients (pts) have multiorgan involvement. Our aim was to explore the trend of amyloidosis associated with plasma cell dyscrasia, treatment and outcome at our institution. Methods: After IRB approval, we reviewed medical records of adult pts ≥ 18 years with a histological diagnosis of amyloid and had evidence of monoclonal gammopathy, between January 1st, 2010 and June 30th, 2019. We reviewed age at diagnosis, gender, work up for paraproteinemia, site of biopsy, technique used for identification of amyloid, imaging studies, treatment and outcome. Results: We found a total of 33 pts with biopsy proven amyloid and evidence of a monoclonal paraprotein. 23 (69.6%) were males and 10 (30.3%) were females. Age ranged from 39 to 89 years with a median age of 62; 3 (9%) being <50 years. 7 (21.2%) were diagnosed with multiple myeloma and one pt each was diagnosed with diffuse large B cell lymphoma and WM. Monoclonal paraprotein was IgG Kappa in 10 (30.3%), IgG lambda in 5 (15%), IgA lambda in 3 (9%), IgA kappa in one, IgM lambda in 3 (9%), IgM Kappa in one, kappa light chain in 5 (15.1%), lambda light chain in 3 (9%), one had both IgG lambda and IgM kappa and no paraprotein was documented in one pt. Serum protein electrophoresis with immunofixation was positive in 22 (66.6%), Urine protein electrophoresis and immunofixation was positive in 16 (48.4%). Most common initial site of amyloid identification by biopsy was kidney in 12 (36.3%). Diagnosis was from abdominal fat pad in 8 (24.2%), lung in 4 (12.1%), bone marrow, heart and skin in 2 each (6%) and liver, colon and bone in 1 each (3%). Positive immunohistochemistry (IHC) stain demonstrating light chain restriction was seen in 23 (69.6%) and out of this only 11 (33%) underwent further evaluation with mass spectrometry. One patient with positive IHC had negative mass spectrometry despite high clinical suspicion for AL amyloidosis. IHC was not performed in 8 (24.2%) and identification was only based on Congo red staining. IHC was negative in 2 (6%) despite evidence of a monoclonal paraprotein. Involvement of kidney was identified in 14 (42.4%) with isolated kidney involvement in 2 (6%). Cardiac involvement was identified in 17 (51.5%) either by biopsy, imaging findings and/or pro-BNP and troponin levels and isolated cardiac disease was noted in 3 (9%). 6 (18.1%) had lung involvement, which was the only disease site in 4 (12.1%). Neuropathy was noted in 10 (30.3%). One had only a single bony site involved. 21 (63.6%) were treated with disease related therapy for amyloidosis, one patient underwent radiation to site of isolated bone disease and the remaining patients were either observed or died before therapy was initiated. 7 (21%) underwent Autologous stem cell transplant for amyloidosis. At the time of data cut off, 21 (63.6%) were alive and 12 (36.3%) were deceased. Amyloidosis was the documented cause of death in 10 pts and of this 9 pts had cardiac involvement. Conclusion: AL Amyloidosis is an uncommon disorder and patients should undergo further diagnostic evaluation if suspicious symptoms with an underlying monoclonal gammopathy. In our study, we noted a male predominance and IgG Kappa was the most common monoclonal paraprotein. As immunohistochemistry has a greater chance of false positive and false negative results, mass spectrometry is the preferred method for identification of amyloid. However, this technique is not widely available which restricts it's use in clinical practice. In our study, we identified one patient with positive IHC who had negative mass spectrometry despite high clinical suspicion for AL amyloidosis. We also identified two patients with negative IHC despite evidence of a monoclonal paraprotein and this may be either a false negative IHC or the amyloid being unrelated to the monoclonal paraprotein. 9/10 pts who died of amyloidosis had cardiac involvement. Disclosures No relevant conflicts of interest to declare.

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