SLC6A19 inhibition facilitates urinary neutral amino acid excretion and lowers plasma phenylalanine
Heike J. Wobst, … , John P. Throup, Joel C. Barrish
Heike J. Wobst, … , John P. Throup, Joel C. Barrish
Published November 8, 2024
Citation Information: JCI Insight. 2024;9(21):e182876. https://doi.org/10.1172/jci.insight.182876.
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Clinical Medicine Clinical trials Metabolism

SLC6A19 inhibition facilitates urinary neutral amino acid excretion and lowers plasma phenylalanine

Abstract

BACKGROUND The toxic accumulation of phenylalanine (Phe) in the brain underlies the neurological presentation of phenylketonuria (PKU). Solute carrier family 6 member 19 (SLC6A19) is the major transporter responsible for the (re)absorption of Phe in the kidney and intestine. Here, we describe the characterization of the first small molecule SLC6A19 inhibitor to enter clinical development for the treatment of PKU.METHODS C57Bl/6J WT and Pahenu2 mice were dosed with an inhibitor of SLC6A19 to investigate the effects on urinary amino acids and plasma Phe. In a phase 1 study, healthy human volunteers were dosed with JNT-517, an investigational oral inhibitor of SLC6A19. The primary objective of the study was safety. Secondary objectives included pharmacokinetic and pharmacodynamic studies.RESULTS Inhibition of SLC6A19 increased the urinary excretion of Phe in a mouse model of PKU, thereby reducing plasma Phe levels. JNT-517, an investigational oral SLC6A19 inhibitor, was found to be safe and well tolerated and increased the urinary excretion of Phe in a phase 1 healthy volunteer study.CONCLUSIONS These data indicate that pharmacological inhibition of SLC6A19 presents a promising approach to lower toxic elevated levels of amino acids found in PKU and related amino acid metabolism disorders by facilitating their renal elimination.TRIAL REGISTRATION Australian New Zealand Clinical Trials Registry (ANZCTR), ACTRN12622001222730.FUNDING The studies in this paper were funded by Jnana Therapeutics.

Authors

Heike J. Wobst, Andreu Viader, Giovanni Muncipinto, Ryan Hollibaugh, Daniel van Kalken, Christopher T. Burkhart, Susan M. Cantin, Rachel M. Bates, Yannik Regimbald-Dumas, Liam Gross, Mitchell T. Antalek, Joshua E. Zweig, Frank Wu, T. Justin Rettenmaier, Matthew T. Labenski, Nicholas Pullen, Heather S. Blanchette, Jaclyn L. Henderson, Haoling H. Weng, Toby A. Vaughn, Dean G. Brown, John P. Throup, Joel C. Barrish

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Figure 1

JNT-517 and JN-170 are potent inhibitors of human and mouse SLC6A19.

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JNT-517 and JN-170 are potent inhibitors of human and mouse SLC6A19. (A)...
(A) Potency of 2 distinct chemical series, series 1 (yellow) and series 2 (purple), against overexpressed human and mouse SLC6A19 in an isoleucine transport assay, expressed as pIC50. (B) Structure of JNT-517. (C) Representative concentration-response curves of JNT-517 in an isoleucine transport assay in Flp-In T-Rex 293 cells cooverexpressing human (yellow) SLC6A19 and TMEM27 or their mouse (purple) orthologs. (D) Concentration-response curve of JNT-517 in a glutamine transport assay in intestinal epithelial cells expressing endogenous SLC6A19 isolated from human postmortem intestine. (E) Structure of JN-170. (F) Representative concentration-response curves of JNT-170 in an isoleucine transport assay in Flp-In T-Rex 293 cells cooverexpressing human (yellow) SLC6A19 and TMEM27 or their mouse (purple) orthologs. Error bars denote SD from 2 (C and F) or 4 (D) technical replicates in a single run. IC50 values are geometric means of n = 4 (C) or 6 (F) experiments. For postmortem epithelial transport, IC50 is the geometric mean of n = 5 experiments from 3 individual donors.