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Safety, bactericidal activity, and pharmacokinetics of the antituberculosis drug candidate BTZ-043 in South Africa (PanACEA-BTZ-043–02): an open-label, dose-expansion, randomised, controlled, phase 1b/2a trial

Norbert Heinrich, Veronique de Jager, Julia Dreisbach, Petra Gross-Demel, Susanne Schultz, Sina Gerbach, Florian Kloß, Rodney Dawson, Kim Narunsky, Leoni Matt, Letícia Muraro Wildner, Timothy D. McHugh, Uwe Fuhr, Brian H Aldana, Chaima Mouhdad, Lindsey te Brake, Martin J. Boeree, Rob E. Aarnoutse, Elin M. Svensson, Xue Gong, Patrick Phillips, Andreas H. Diacon, Michael Hoelscher, Michael Höelscher, Julia Dreisbach, Petra Gross – Demel, Larissa Wagnerberger, Norbert Heinrich, Alia Razid, Wandini Lutchmun, Iván Noreña, Wandini Lutchmun, Derek J. Sloan, Wilber Sabiiti, Stephen H. Gillespie, Lindsey te Brake, Elin M. Svensson, Chaima Mouhdad, Rob Aarnoutse, Martin J. Boeree, Ralf Stemkens, Simon E. Koele, Matthew Bates, Robert Hunt, Timothy D. McHugh, Letícia Muraro Wildner, Priya Solanki, Patrick Phillips, Xue Gong, Brian H Aldana, Angela M. Crook, Rodney Dawson, Kim Narunsky, Rodney Dawson, Andreas H. Diacon, Veronique de Jager, Sven Friedrich, Ian Sanne, Mohammed Rassool, Gavin Churchyard, Modulakgotla Sebe, Heeran Makkan, Lucia Mokaba, Namhla Madikizela, John Mdluli, Namhla Madikizela, Robert S. Wallis, Trevor Beattie, Nyanda Elias Ntinginya, Chacha Mangu, Christina Manyama, Issa Sabi, Bariki Mtafya, Lilian Tina Minja, Francis Mhimbira, Benno Mbeya, Tresphory Zumba, Nyasige Chibunu, Mohamed Sasamalo, Klaus Reither, Levan Jugheli, Noel Sam, Gibson Kibiki, Hadija Semvua, Stellah Mpagama, Alphonce Liyoyo, Bayodé Roméo Adégbitè, Ayôla Akim Adégnika, Martin Peter Grobusch, Bruce Kirenga, Celso Khosa, Isabel Timana, Marriott Nliwasa, Madalo Mukoka, Marriott Nliwasa, Madalo Mukoka

2025The Lancet Microbe25 citationsDOIOpen Access PDF

Abstract

Background The broad use of bedaquiline and pretomanid as the mainstay of new regimens to combat tuberculosis is a risk due to increasing bedaquiline resistance. We aimed to assess the safety, bactericidal activity, and pharmacokinetics of BTZ-043, a first-in-class DprE1 inhibitor with strong bactericidal activity in murine models. Methods This open-label, dose-expansion, randomised, controlled, phase 1b/2a trial was conducted in two specialised tuberculosis sites in Cape Town, South Africa. Adults aged 18–64 years with newly diagnosed pulmonary tuberculosis sensitive to rifampicin and isoniazid, who weighed at least 40 kg, had a positive sputum smear graded at least 1+, were HIV negative, and had no history of hypertension or other substantial comorbidities were admitted to hospital. In stage 1 (multiple-ascending dose phase 1b with an adaptive continual reassessment method), the starting dose of BTZ-043 was 250 mg, with planned dose increments of 250 mg up to 2000 mg, and cohorts of three participants were enrolled sequentially. In stage 2 (phase 2a dose-expansion stage), participants were randomly assigned (3:3:3:2) to receive one of three doses of oral BTZ-043 (decided after stage 1) or standard of care (isoniazid, rifampicin, pyrazinamide, and ethambutol) using sealed opaque envelopes. The BTZ-043 groups also received oral dolutegravir (a third of participants) or a probe drug cocktail (caffeine [probe for CYP1A2], tolbutamide [CYP2C9], dextromethorphan [CYP2D6], midazolam [CYP3A4], and digoxin [P-glycoprotein]; two-thirds of participants). Study staff and participants were not masked, but laboratory staff were masked to treatment assignment. The primary outcome was to assess the safety and tolerability of BTZ-43 over 14 days of dosing by evaluation of adverse events in the safety analysis population. Secondary outcomes were bactericidal activity, measured by time to positivity (TTP) and colony-forming unit (CFU) count; pharmacokinetics (stage 2; including the food effect on BTZ-043); and drug–drug interactions with CYP450 enzymes, P-glycoprotein, and dolutegravir. This study is registered with ClinicalTrials.gov, NCT04044001 (completed). Findings In stage 1, 61 patients were assessed for eligibility and 24 were enrolled into seven dose cohorts between Nov 13, 2019, and Aug 13, 2020. Dose escalations were performed safely up to 1750 mg of BTZ-043 with three participants per dose cohort (and two dose cohorts for the highest dose). In stage 2, 151 patients were assessed for eligibility and 54 were enrolled and randomly assigned between Feb 2, 2021, and Feb 9, 2022, to receive 250, 500, and 1000 mg of BTZ-043 or standard of care. 66 (85%) of 78 participants were male and 12 (15%) were female. The most frequently observed adverse events were nausea (12 [8%] of 154), headache (11 [7%]), dizziness (11 [7%]), and vomiting (eight [5%]). Most participants had adverse events of mild (46 [60%] of 77 participants) or moderate (22 [29%]) severity. Transient increases in alanine aminotransferase were observed in both stages, which declined again despite continued dosing and were classified as signs of adaptation of hepatic metabolism rather than hepatotoxicity. The worsening of pre-existing anaemia and QTcF interval prolongation in one individual each were rated as possibly related to the study drug. One patient died before the first scheduled dose of BTZ-043 500 mg due to a pulmonary embolism. In stage 1, bactericidal activity measured as CFU counts on solid media was highest at doses 750–1500 mg; in stage 2, all doses of BTZ-043 showed 14-day bactericidal activity, highest at 1000 mg on solid media (log 10 CFU/mL per day –0·115 [95% CI –0·162 to –0·069]) and TTP estimates were highest at 500 mg in liquid media (log 10 h per day 0·015 [0·010 to 0·019]). BTZ-043 pharmacokinetics showed increased exposure with high-fat food versus fasting (area under the curve [AUC] 0–last geometric mean ratio 4·13 [90% CI 1·65 to 10·30] for BTZ-043; 2·99 [1·39 to 6·41] for BTZ-043 total [BTZ-043 plus metabolite 2]; and 1·25 [0·66 to 2·39] for metabolite 1). When taken with a standard breakfast, BTZ-043 total AUC showed a dose-proportional increase up to 33 200 ng/mL × h (range 12 500 to 48 200) at 1000 mg. The maximum concentration (C max ) increased to 5060 ng/mL (2450 to 8020); and median half-life was 3·72 h (2·45 to 6·60). Probe drug evaluations showed bioequivalence (ie, 90% CI of the AUC 0–infinity geometric mean ratio from administration to day 14 entirely within the range of 80 to 125%) for caffeine (100·0% [90% CI 86·3 to 115·9]), digoxin (113·4% [105·9 to 121·5]), and dolutegravir (106·1% [91·5 to 122·9]). Dextromethorphan (116·2% [104·6 to 129·1]), tolbutamide (252·7% [230·7 to 276·9]), and midazolam (77·0% [69·2 to 85·6]) did not meet the bioequivalence criterion. Interpretation Based on a small sample size, BTZ-043 is a promising antituberculosis drug candidate with favourable safety and good bactericidal activity. Larger follow-up studies are needed to detect any less frequent safety signals, further explore drug–drug interactions, identify the best dose, and evaluate efficacy in combination with other drugs. Funding EDCTP2 programme; German Ministry for Education and Research; German Center for Infection Research; InfectControl; Bavarian Ministry for Science and the Arts; Swiss State Secretariat for Education, Research, and Innovation; and Nederlandse Organisatie voor Wetenschappelijk Onderzoek.

Topics & Concepts

MedicineEthambutolPharmacologyTuberculosisPyrazinamideRifampicinIsoniazidPharmacokineticsInternal medicinePathologyTuberculosis Research and EpidemiologyPneumocystis jirovecii pneumonia detection and treatmentPneumonia and Respiratory Infections
Safety, bactericidal activity, and pharmacokinetics of the antituberculosis drug candidate BTZ-043 in South Africa (PanACEA-BTZ-043–02): an open-label, dose-expansion, randomised, controlled, phase 1b/2a trial | Litcius