Assessment of serum protein binding to predict non-specific uptake in vivo

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Scope of the method

The Method relates to

Human health

The Method is situated in

Translational - Applied Research

Type of method

In vitro - Ex vivo

This method makes use of

Human derived cells / tissues / organs

Specify the type of cells/tissues/organs

Serum

Description

Method keywords

Serum protein binding
hepatobiliary clearance
size-exclusion chromatography

Scientific area keywords

in vivo biodistribution
non-invasive imaging
pharmacokinetics

Method description

For therapeutic or reporter molecules to be effective for therapy or imaging applications, proper accumulation of the compounds in the tissue of interest is required, with minimal accumulation in undesired organs to avoid toxic side-effects and increase bioavailability. After initial in vitro screening on functionality and potency, a panel of preselected analogues are often evaluated in vivo for their pharmacokinetic profile to select a lead compound. This is most often assessed in vivo following administration of the compound using chromatography techniques or ELISA on collected tissues/organs, or non-invasive imaging. We propose to screen the compounds beforehand for non-specific protein binding in order to predict undesired background accumulation, in particular in the liver. As such, the number of compounds that need to be tested in vivo can be limited to the most promising ones.

Lab equipment

HPLC Fluorescent- or radiolabeled drug-analogue Serum

Method status

History of use

Pros, cons & Future potential

Advantages

By screening beforehand a panel of drugs on their serum protein binding, the number of preselected molecules that need to be evaluated in vivo can be reduced as these will exhibit in vivo non-specific binding, in particular liver accumulation. Depending on the application, this can lead to undesired toxic side-effects and decrease the bioavailability of the drug.

Challenges

To differentiate the signal of the drug from the signal of the serum proteins, the drug needs to be labeled either with a fluorophore or a radioisotope. One should be aware that the modification of a drug can also impact the biodistribution profile. In particular, hydrophobic fluorescent dyes are known to exhibit non-specific protein binding. Moreover, one should be reminded that the in vitro assay is a static assay that does not necessarily reflect the dynamic process happening in vivo and that metabolization, clearance, compartimentalization etc is not taken into account. Moreover, this assay does not predict in vivo efficacy of the compounds.

Modifications

This method could be adapted to screen the binding of drugs to other types of proteins that can predict non-specific accumulation in certain undesired organs/tissues in the body.

Future & Other applications

This method could be used to screen additional types of drugs (small molecules, peptides, large antibodies) for their non-specific serum protein binding and as such predict their in vivo behavior. This will limit the number of compounds tested in vivo.

References, associated documents and other information

References

P. Debie, C. M. Huygen, B. De Sloovere, D.M. van Willigen, Ł Mateusiak, N. B. Declerck, J. Bridoux, J. Puttemans, N. Devoogdt, F. W. B. van Leeuwen, S. Hernot. Design and preclinical evaluation of a single-label bimodal nanobody tracer for image-guided surgery. Biomolecules (2021) 11, 360. IF2020 4.879 doi.org/10.3390/biom11030360
D.A. Smith, L. Di & E.H. Kerns. The effect of plasma protein binding on in vivo efficacy: misconceptions in drug discovery. Nature Reviews Drug Discovery (2010) 9, 929–939
Additional publications upcoming

Associated documents

Protocol.docx