Well-developed ligand-binding assays demonstrate robust performance using singlet analysis

Aim: Replicate sample testing has long been regarded as a necessity for bioanalytical laboratory testing, especially in the realm of ligand-binding assays (LBAs). In an era in which results were derived from crude test tube-based assays, the replication of results was warranted. Those assays were often imprecise and required multiple replicates to arrive at results that approached accuracy. However, given technological advancements and excellent accuracy and precision of many modern LBAs, the practice of replicate testing should be re-evaluated. Although most regulatory guidelines allow for singlet testing when sufficient robustness and precision are demonstrated during validation, duplicate testing is still common practice. Recently however, several articles have been published that support singlet analysis for LBAs performed on a platform with automated liquid handling. Results: Data from five pharmacokinetic assay validations and five clinical and preclinical studies originally run in duplicate were re-evaluated in singlet and found to be nearly identical to the original duplicate results. Conclusion: We confirm that well-developed LBAs produce comparable data whether evaluated in singlet or duplicate. Additionally, automation is not requisite for singlet testing.

Download Full-text

European Bioanalysis Forum recommendation on singlicate analysis for ligand binding assays: time for a new mindset

Bioanalysis ◽

10.4155/bio-2019-0298 ◽

2020 ◽

Vol 12 (5) ◽

pp. 273-284 ◽

Cited By ~ 1

Author(s):

Matthew Barfield ◽

Joanne Goodman ◽

John Hood ◽

Philip Timmerman

Keyword(s):

Ligand Binding ◽

Pharmacokinetic Analysis ◽

Pharmacokinetic Parameters ◽

Binding Assays ◽

Bioanalytical Method Validation ◽

Regulatory Guidelines ◽

The Status ◽

Analysis Strategy ◽

Assay Methods ◽

Pharmacokinetic Assay

It is well accepted that chromatographic assay methods employ singlicate analysis for toxicokinetic and pharmacokinetic analysis. While conversely, it has been the norm for ligand-binding assays to be run in at least duplicate analyses, stemming mainly from concerns over inherent assay variability and reagent quality. Regulatory guidelines and guidance on bioanalytical method validation has, in the most part, recommended multiple replicates for immunoassays and this has led to the industry being comfortable and familiar with duplicate analysis. Over the last few years, the discussion on whether singlicate analysis is acceptable for ligand-binding assays has grown and the status quo is being challenged for regulated bioanalysis performed using immunoassays. Through interrogation of preclinical and clinical pharmacokinetic assay data from the European Bioanalysis Forum community, the application of a singlicate analysis strategy has shown to have no impact on toxicokinetic and pharmacokinetic parameters when compared with duplicate analysis from the same studies. Therefore, now is the time to adopt a new mindset when it comes to sample analysis for toxicokinetic and pharmacokinetic ligand-binding assays and embrace singlicate analysis in the regulated environment.

Download Full-text

EBF recommendation on practical management of critical reagents for antidrug antibody ligand-binding assays

Bioanalysis ◽

10.4155/bio-2019-0248 ◽

2019 ◽

Vol 11 (19) ◽

pp. 1787-1798 ◽

Cited By ~ 1

Author(s):

Susanne Pihl ◽

Barry WA van der Strate ◽

Michaela Golob ◽

Janka Ryding ◽

Laurent Vermet ◽

...

Keyword(s):

Life Cycle ◽

Ligand Binding ◽

Crucial Role ◽

Binding Assays ◽

Antidrug Antibody ◽

Regulatory Guidelines ◽

Minimum Requirements ◽

Antidrug Antibodies ◽

Immunogenicity Assays

Immunogenicity (ISI) assays are required to measure antidrug antibodies that are generated against biotherapeutic modalities. As for any ligand-binding assays, critical reagents (CR) play a crucial role in immunogenicity assays, as the robustness and reliability of an assay are defined by the quality and long-term availability of these reagents. The current regulatory guidelines do not provide clear directions on how to implement and verify lot-to-lot changes of CR during an assay life cycle, or the acceptance criteria that should be used when implementing new lots of CR. These aspects were extensively discussed within the European Bioanalysis Forum community. In this paper, CR for immunogenicity assays are identified and the minimum requirements for introducing new lots of CR in immunogenicity assays are described.

Download Full-text

Highly sensitive ligand-binding assays in pre-clinical and clinical applications: immuno-PCR and other emerging techniques

The Analyst ◽

10.1039/c5an00822k ◽

2015 ◽

Vol 140 (18) ◽

pp. 6175-6194 ◽

Cited By ~ 22

Author(s):

Mark Spengler ◽

Michael Adler ◽

Christof M. Niemeyer

Keyword(s):

Ligand Binding ◽

Binding Assay ◽

State Of The Art ◽

Clinical Applications ◽

Analytical Sensitivity ◽

Ligand Binding Assay ◽

Binding Assays ◽

Highly Sensitive ◽

Sample Testing ◽

Pharmaceutical Sample

Emerging state-of-the-art ligand-binding assay technologies for pharmaceutical sample testing are surveyed, which reveal enhanced analytical sensitivity over classical ELISA formats.

Download Full-text

The structure of SeviL, a GM1b/asialo-GM1 binding R-type lectin from the mussel Mytilisepta virgata

Scientific Reports ◽

10.1038/s41598-020-78926-7 ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Kenichi Kamata ◽

Kenji Mizutani ◽

Katsuya Takahashi ◽

Roberta Marchetti ◽

Alba Silipo ◽

...

Keyword(s):

Immune System ◽

Sialic Acid ◽

Ligand Binding ◽

Steric Hindrance ◽

Sequence Similarity ◽

Binding Assays ◽

Subunit Interface ◽

Nmr Techniques ◽

And Control ◽

Asialo Gm1

AbstractSeviL is a recently isolated lectin found to bind to the linear saccharides of the ganglioside GM1b (Neu5Ac$$\alpha$$ α (2-3)Gal$$\beta$$ β (1-3)GalNAc$$\beta$$ β (1-4)Gal$$\beta$$ β (1-4)Glc) and its precursor, asialo-GM1 (Gal$$\beta$$ β (1-3)GalNAc$$\beta$$ β (1-4)Gal$$\beta$$ β (1-4)Glc). The crystal structures of recombinant SeviL have been determined in the presence and absence of ligand. The protein belongs to the $$\beta$$ β -trefoil family, but shows only weak sequence similarity to known structures. SeviL forms a dimer in solution, with one binding site per subunit, close to the subunit interface. Molecular details of glycan recognition by SeviL in solution were analysed by ligand- and protein-based NMR techniques as well as ligand binding assays. SeviL shows no interaction with GM1 due to steric hindrance with the sialic acid branch that is absent from GM1b. This unusual specificity makes SeviL of great interest for the detection and control of certain cancer cells, and cells of the immune system, that display asialo-GM1.

Download Full-text