Large-scale data mining of four billion human antibody variable regions reveals convergence between therapeutic and natural antibodies that constrains search space for biologics drug discovery
Pawel Dudzic,
Dawid Chomicz,
Jarosław Kończak,
Tadeusz Satława,
Bartosz Janusz,
Sonia Wrobel,
Tomasz Gawłowski,
Igor Jaszczyszyn,
Weronika Bielska,
Samuel Demharter,
Roberto Spreafico,
Lukas Schulte,
Kyle Martin,
Stephen R. Comeau,
Konrad Krawczyk
Affiliations
Pawel Dudzic
NaturalAntibody, Szczecin, Poland
Dawid Chomicz
NaturalAntibody, Szczecin, Poland
Jarosław Kończak
NaturalAntibody, Szczecin, Poland
Tadeusz Satława
NaturalAntibody, Szczecin, Poland
Bartosz Janusz
NaturalAntibody, Szczecin, Poland
Sonia Wrobel
NaturalAntibody, Szczecin, Poland
Tomasz Gawłowski
NaturalAntibody, Szczecin, Poland
Igor Jaszczyszyn
NaturalAntibody, Szczecin, Poland
Weronika Bielska
NaturalAntibody, Szczecin, Poland
Samuel Demharter
Discovery Data Science, Genmab, Copenhagen, Denmark
Roberto Spreafico
Discovery Data Science, Genmab, Utrecht, The Netherlands
Lukas Schulte
Global Computational Biology & Digital Sciences, Boehringer Ingelheim Pharma GmbH & Co. KG, Biberach an der Riß, Germany
Kyle Martin
Biotherapeutics Discovery, Boehringer Ingelheim, Ridgefield, CT, USA
Stephen R. Comeau
Biotherapeutics Discovery, Boehringer Ingelheim, Ridgefield, CT, USA
The naïve human antibody repertoire has theoretical access to an estimated > 1015 antibodies. Identifying subsets of this prohibitively large space where therapeutically relevant antibodies may be found is useful for development of these agents. It was previously demonstrated that, despite the immense sequence space, different individuals can produce the same antibodies. It was also shown that therapeutic antibodies, which typically follow seemingly unnatural development processes, can arise independently naturally. To check for biases in how the sequence space is explored, we data mined public repositories to identify 220 bioprojects with a combined seven billion reads. Of these, we created a subset of human bioprojects that we make available as the AbNGS database (https://naturalantibody.com/ngs/). AbNGS contains 135 bioprojects with four billion productive human heavy variable region sequences and 385 million unique complementarity-determining region (CDR)-H3s. We find that 270,000 (0.07% of 385 million) unique CDR-H3s are highly public in that they occur in at least five of 135 bioprojects. Of 700 unique therapeutic CDR-H3, a total of 6% has direct matches in the small set of 270,000. This observation extends to a match between CDR-H3 and V-gene call as well. Thus, the subspace of shared (‘public’) CDR-H3s shows utility for serving as a starting point for therapeutic antibody design.
