ライフサイエンスコーパス: clofazimine

1 ol, kanamycin, moxifloxacin, ethionamide, or clofazimine.

2 Most participants (97%) received concurrent clofazimine.

3 transferase) led to temporary withdrawal of clofazimine.

4 , 33.3% moxifloxacin, 1.5% linezolid, and 2% clofazimine.

5 ity remained above 90% for all drugs, except clofazimine.

6 ent discontinuation of either bedaquiline or clofazimine.

7 esistant mutants are also cross-resistant to clofazimine.

8 ients with pre-XDR-TB treated with BPaL plus clofazimine.

9 stance and susceptibility to bedaquiline and clofazimine.

10 followed by 2 mo of rifampin, isoniazid, and clofazimine.

11 One-half of the mice also received daily clofazimine.

12 4 mug/ml), linezolid (0.25 to 2 mug/ml), and clofazimine (0.03 to 0.25 mug/ml).

13 h/L and 111.79 mg x h/L) in adults receiving clofazimine (100 mg) daily for MDR/RR-TB and leprosy, re

14 All CSF measurements of bedaquiline (12), clofazimine (24), and delamanid (19) were below the limi

15 id, with a subset receiving cycloserine (5), clofazimine (5), delamanid (4), and bedaquiline (2).

16 majority also received linezolid (89.6%) and clofazimine (84.5%).

17 d in mice and not differently susceptible to clofazimine, a drug in clinical use proposed to engage N

18 These results suggest that clofazimine accumulates in macrophages by forming a memb

19 observed for clarithromycin, bedaquiline, or clofazimine across treatment phases, indicating that seq

20 flux pumps and to potentiate bedaquiline and clofazimine activity in M. tuberculosis.

21 Furthermore, mice that received clofazimine after BCG vaccination exhibited significantl

22 g system specifically designed for detecting clofazimine aggregates.

23 Clofazimine, an FDA-approved antibiotic, accumulates and

24 Here we show that clofazimine-an anti-leprosy drug with a favourable safet

25 formation, we synthesized a closely related clofazimine analog that does not precipitate under physi

26 Clofazimine and beta-lactams may have unrealized potenti

27 oresistance to bedaquiline and linezolid and clofazimine and linezolid were 0.1% and 0.3%, respective

28 general, molecular design strategy for using clofazimine and other small molecule building blocks for

29 Combinations of clofazimine and remdesivir exhibited antiviral synergy i

30 nd other antimicrobial substrates, including clofazimine and the DprE1 inhibitors PBTZ-169 and OPC-16

31 therapy with three antibiotics: rifampicin, clofazimine, and dapsone.

32 on drugs (bedaquiline, delamanid, linezolid, clofazimine, and fluoroquinolones).

33 were classified for bedaquiline, delamanid, clofazimine, and linezolid as prevalence of phenotypic r

34 itive and resistant isolates for pretomanid, clofazimine, and linezolid was achieved at concentration

35 DST for bedaquiline, pretomanid, linezolid, clofazimine, and rifampicin using clinical M. tuberculos

36 stration (FDA)-approved drugs and identified clofazimine as a potential third agent to optimize anti-

37 strategy to identify the antimicrobial drug clofazimine as an agent that both potentiates ICB effica

38 = .022); levofloxacin AUC0-24/MIC of 118.3, clofazimine AUC0-24/MIC of 50.5, and pyrazinamide AUC0-2

39 Here, we report a case of clofazimine, bedaquiline, and low-level delamanid resist

40 fied a potent 4-drug oral regimen comprising clofazimine, bedaquiline, pyrazinamide, and delamanid (p

41 drug's red color, it is widely believed that clofazimine bioaccumulation results in skin pigmentation

42 the BPaLM regimen, continuing with BPaL plus clofazimine (BPaLC) provided more QALYs at lower cost th

43 (L), levofloxacin (Lfx) or moxifloxacin (M), clofazimine (C), and pyrazinamide (Z).

44 ug, pyrazinamide (Z), and a repurposed drug, clofazimine (C), may assist treatment shortening of drug

45 These results show that clofazimine can be repurposed to treat cholera and open

46 Weakly basic small molecule drugs like clofazimine can be used as building blocks for endowing

47 hly using charcoal-containing agar to reduce clofazimine carryover.

48 ficacy, pharmacokinetics (PK), and safety of clofazimine (CFZ) in patients living with human immunode

49 Here, biocrystals of clofazimine (CFZ) that form in vivo within macrophages w

50 The mechanism of action of clofazimine (CFZ), an antimycobacterial drug with a long

51 fx) and reinforced with cycloserine (Cs) and clofazimine (Cfz), delamanid (Dlm) and pyrazinamide (Z),

52 s, alone or with additional encapsulation of clofazimine (CFZ), enhance killing of mycobacteria in vi

53 [INH], linezolid [LZD], moxifloxacin [MFX], clofazimine [CFZ], pyrazinamide [PZA], and kanamycin [KA

54 The lowest P value for clofazimine clearance was with VKORC1 rs9923231 (P = .13

55 l responses to the pharmacological molecule, clofazimine (CLF).

56 02 milliseconds for every 1-ug/L increase in clofazimine concentration.

57 ed after 3 and 5 mo in mice treated with the clofazimine-containing and standard regimens, respective

58 ained after 3 and 6 mo of treatment with the clofazimine-containing and standard regimens, respective

59 4 mo of rifampin and isoniazid, with a 4-mo clofazimine-containing regimen: 2 mo of daily rifampin,

60 Although observational studies suggest that clofazimine-containing regimens are highly active agains

61 The clofazimine contribution was substantial in these experi

62 zolid (BPaL) with or without moxifloxacin or clofazimine, could improve treatment efficacy, safety, a

63 Also unlike pure clofazimine crystals, CLDIs fragmented when heated, and

64 Unlike pure clofazimine crystals, isolated CLDIs placed in distilled

65 orm in subcellular spaces correspond to pure clofazimine crystals, macrophages of clofazimine-fed mic

66 t common companion drugs included linezolid, clofazimine, cycloserine and a fluoroquinolone.

67 t common companion drugs included linezolid, clofazimine, cycloserine, and a fluoroquinolone.

68 with TB resistant to amikacin, bedaquiline, clofazimine, cycloserine, moxifloxacin, and pyrazinamide

69 Clofazimine deserves further study for the treatment of

70 developed data analysis tool, we found that clofazimine does penetrate to some extent into necrotic

71 The clofazimine doses used achieved substantially higher exp

72 s in children than adults receiving standard clofazimine doses.

73 Therefore, clofazimine enhances Tcm cell expansion, which in turn p

74 dications (amiodarone, chloroquine, suramin, clofazimine, etc.) may produce a drug-induced lipidosis

75 ts with baseline fluoroquinolone resistance, clofazimine exposure, and four or less effective drugs w

76 The association of higher clofazimine exposures and QT interval prolongation may p

77 Upon prolonged treatment, clofazimine extensively bioaccumulates and precipitates

78 to pure clofazimine crystals, macrophages of clofazimine-fed mice were elicited with an intraperitone

79 daily rifampin, isoniazid, pyrazinamide, and clofazimine followed by 2 mo of rifampin, isoniazid, and

80 ugs - Bedaquiline, Delamanid, Linezolid, and Clofazimine for 24-36 weeks in adults with pulmonary MDR

81 relapse rate was 7% among mice treated with clofazimine for 8 to 9 months.

82 We report 22 patients treated with clofazimine for chronic graft-versus-host disease (cGVHD

83 -resistant tuberculosis, the contribution of clofazimine for the treatment of this disease has never

84 se +/-SD, 1.0+/-0.5 log 10 cfu/mL of blood), clofazimine had the greatest bacteriostatic efficacy in

85 f the 16 compounds tested to date (including clofazimine, haloperidol and others) had measurable anti

86 A key drug for the treatment of leprosy, clofazimine has recently been associated with highly eff

87 Clofazimine, imaged here for the first time in necrotic

88 rance of bedaquiline, its M2 metabolite, and clofazimine in a cohort of patients treated for drug-res

89 rophylactic or therapeutic administration of clofazimine in a hamster model of SARS-CoV-2 pathogenesi

90 drug regimen with or without the addition of clofazimine in a mouse model of multidrug-resistant tube

91 described the pharmacokinetics and safety of clofazimine in children treated for multidrug/rifampicin

92 Consistent with the low concentrations of clofazimine in the skin, these results suggest that clof

93 To test whether clofazimine-induced skin pigmentation is due to CLDI for

94 mine in the skin, these results suggest that clofazimine-induced skin pigmentation is not due to clof

95 The mechanism by which clofazimine induces a response is unknown, but might be

96 Clofazimine is a poorly-soluble but orally-bioavailable

97 Thus, clofazimine is a promising anti-TB drug with the potenti

98 Clofazimine is a weakly basic, Food and Drug Administrat

99 Our results show that in an animal model, clofazimine is as effective as ampicillin in the treatme

100 Thus, clofazimine is safe and has encouraging efficacy in cGVH

101 analyses show that the structural target of clofazimine is the catalytically active ubiquinone-bindi

102 s the utility of bedaquiline, delamanid, and clofazimine is uncertain given their low CSF penetration

103 use of Bdq and Dlm, along with linezolid and clofazimine, is safe and effective for MDR/RR-TB patient

104 5 confers resistance towards bedaquiline and clofazimine, key drugs to combat multidrug resistant tub

105 Clofazimine (Lamprene) is an antimycobacterial drug that

106 and phenothiazines and have identified that clofazimine (Lamprene) shows strong antibiotic effects a

107 ifloxacin, amikacin, kanamycin, ethionamide, clofazimine, linezolid, delamanid, and bedaquiline).

108 .0), kanamycin (<=8.0), capreomycin (<=4.0), clofazimine (<=0.25) and linezolid (<=2.0).

109 Consequently, we hypothesized that clofazimine may also shorten the duration of treatment f

110 Clofazimine may contribute to new short-course DR-tuberc

111 Our data provide evidence that clofazimine may have a role in the control of the curren

112 d bedaquiline) and repurposed (linezolid and clofazimine) MDR-TB drugs and the new shorter MDR-TB reg

113 We determined bedaquiline and clofazimine minimum inhibitory concentrations and did Il

114 Upon oral administration, clofazimine molecules self-assemble into stable, membran

115 of the ETC inhibitors bedaquiline, Q203 and clofazimine on the Mtb ETC, and the value of the ETC as

116 bedaquiline) and repurposed (eg, linezolid, clofazimine, or meropenem) drugs and guided by genotypic

117 reated with the same antibiotic (ethambutol, clofazimine, or rifampin) that had been administered to

118 Remarkably, clofazimine outperforms ICB dose reduction or steroid tr

119 al effect of steroids on antitumor efficacy, clofazimine potentiates curative responses in anti-PD-1+

120 Collectively, clofazimine potentiates the antitumor efficacy of anti-P

121 mine-induced skin pigmentation is not due to clofazimine precipitation and CLDI formation, but rather

122 Mechanistically, clofazimine promotes E2F1 activation in CD8(+) T cells t

123 omas could be observed for the anti-TB drugs clofazimine, pyrazinamide, and rifampicin at a pixel siz

124 line, pyrazinamide, levofloxacin, linezolid, clofazimine) regimens, respectively.

125 r 5 months, whereas all mice treated without clofazimine remained heavily culture-positive for the en

126 thylene microbeads or treatment with soluble clofazimine rendered macrophages stiffer.

127 Here, we describe how clofazimine represents a first-in-class mechanopharmaceu

128 s so far identified as being associated with clofazimine resistance and also seen in clinically resis

129 To decipher bedaquiline and clofazimine resistance determinants, we combined experim

130 trations to select bedaquiline-resistant and clofazimine-resistant mutants.

131 .61 and 4.68 in mice treated with or without clofazimine, respectively (P < 0.001).

132 of participants, this included linezolid and clofazimine, respectively.

133 %-CI: 1.1-3.1; P = .02), and be resistant to clofazimine (RR: 2.3; 95%-CI: 1.5-3.6; P = .001).

134 lerae metabolism allowed us to identify that clofazimine's main target in this pathogen is the respir

135 Increased ETC activity potentiates clofazimine's production of reactive oxygen species, cau

136 el preferentially expressed by Tem cells, by Clofazimine selectively expands Tcm cells during BCG vac

137 In addition, clofazimine shows strong antivirulence properties, almos

138 The resulting increase in clofazimine solubility activates this broad-spectrum ant

139 ensitivity gains are highest for ethambutol, clofazimine, streptomycin, and ethionamide as regression

140 edictions for anti-TB-agents (rifampicin and clofazimine) strikingly match recent spatially-resolved

141 olony counts were significantly lower in the clofazimine-treated mice than in the mice receiving the

142 In clofazimine-treated mice, skin cryosections revealed no

143 Clofazimine use increased Emax by 3.3-fold.

144 pic cross-resistance between bedaquiline and clofazimine was 0.4% in MDR-TB and 1% in pre-extensively

145 Clofazimine was added per culture and sensitivity.

146 Clofazimine was administered by weight-based dosing.

147 No additive effect of clofazimine was observed after the first week of treatme

148 Median clofazimine wAUC was 162.94 (IQR, 130.06-263.95), >25% h

149 Clofazimine weekly area under the concentration time-cur

150 Mice treated with clofazimine were culture-negative after 5 months, wherea

151 st P values for clearance of bedaquiline and clofazimine were with RFX4 rs76345012 (P = 6.4 x 10-7) a

152 fashion with either ethambutol, rifampin, or clofazimine, were tested by three conventional methods u

153 ertain drugs-fluoroquinolones, pyrazinamide, clofazimine-were predictive and should be optimized to i

154 t 2- to 8-fold increases in MICs for BDQ and clofazimine, whereas one atpE mutant exhibited a 50-fold

155 Conversely, the antibiotic clofazimine, which increases ROS via an NADH-dependent r

156 Clofazimine, which is orally bioavailable and comparativ

157 onotherapy: clarithromycin, bedaquiline, and clofazimine, with only one drug administered at a time f

158 MAC bacteremia received clarithromycin plus clofazimine, with or without ethambutol, in a prospectiv