TY - JOUR
T1 - Evaluation of recombinant monoclonal antibody SVmab1 binding to NaV1.7 target sequences and block of human NaV1.7 currents
AU - Moyer, Bryan D.
AU - Liu, Dong
AU - Tseng, Mandy
AU - Epstein, Linda F.
AU - Green, Lydia
AU - Chan, Brian
AU - Soriano, Brian
AU - Lim, Desiree
AU - Pan, Oscar
AU - Murawsky, Christopher M.
AU - King, Chadwick T.
N1 - Publisher Copyright:
© 2016 Liu D et al.
PY - 2016
Y1 - 2016
N2 - Identification of small and large molecule pain therapeutics that target the genetically validated voltage-gated sodium channel Na V1.7 is a challenging endeavor under vigorous pursuit. The monoclonal antibody SVmab1 was recently published to bind the Na V1.7 DII voltage sensor domain and block human Na V1.7 sodium currents in heterologous cells. We produced purified SVmab1 protein based on publically available sequence information, and evaluated its activity in a battery of binding and functional assays. Herein, we report that our recombinant SVmAb1 does not bind peptide immunogen or purified Na V1.7 DII voltage sensor domain via ELISA, and does not bind Na V1.7 in live HEK293, U-2 OS, and CHO-K1 cells via FACS. Whole cell manual patch clamp electrophysiology protocols interrogating diverse Na V1.7 gating states in HEK293 cells, revealed that recombinant SVmab1 does not block Na V1.7 currents to an extent greater than observed with an isotype matched control antibody. Collectively, our results show that recombinant SVmab1 monoclonal antibody does not bind Na V1.7 target sequences or specifically inhibit Na V1.7 current.
AB - Identification of small and large molecule pain therapeutics that target the genetically validated voltage-gated sodium channel Na V1.7 is a challenging endeavor under vigorous pursuit. The monoclonal antibody SVmab1 was recently published to bind the Na V1.7 DII voltage sensor domain and block human Na V1.7 sodium currents in heterologous cells. We produced purified SVmab1 protein based on publically available sequence information, and evaluated its activity in a battery of binding and functional assays. Herein, we report that our recombinant SVmAb1 does not bind peptide immunogen or purified Na V1.7 DII voltage sensor domain via ELISA, and does not bind Na V1.7 in live HEK293, U-2 OS, and CHO-K1 cells via FACS. Whole cell manual patch clamp electrophysiology protocols interrogating diverse Na V1.7 gating states in HEK293 cells, revealed that recombinant SVmab1 does not block Na V1.7 currents to an extent greater than observed with an isotype matched control antibody. Collectively, our results show that recombinant SVmab1 monoclonal antibody does not bind Na V1.7 target sequences or specifically inhibit Na V1.7 current.
UR - http://www.scopus.com/inward/record.url?scp=85007610443&partnerID=8YFLogxK
U2 - 10.12688/f1000research.9918.1
DO - 10.12688/f1000research.9918.1
M3 - Article
AN - SCOPUS:85007610443
SN - 2046-1402
VL - 5
JO - F1000Research
JF - F1000Research
M1 - 2764
ER -