Structure and inhibition mechanism of the catalytic domain of human squalene epoxidase

Padyana, Anil K.; Größ, Stefan; Jin, Lei; Cianchetta, Giovanni; Narayanaswamy, Rohini; Wang, Feng; Wang, Rui; Cheng, Fang; Lv, Xiaobing; Biller, Scott A.; Dang, Lenny; Mahoney, Christopher E.; Nagaraja, N.; Pirman, David; Sui, Zhihua; Popovici‐Muller, Janeta; Smolen, Gromoslaw A.

doi:10.1038/s41467-018-07928-x

Cited by 90 publications

(118 citation statements)

References 39 publications

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“…2C). This observation is consistent with the fact that stabilization of the SM catalytic domain by NB-598 has been observed using in vitro thermal shift assays (12), and with the previously reported stabilization of receptors or enzymes upon binding of their ligands in living cells (21)(22)(23)(24). Interestingly, NB-598 also up-regulated the SM-N100 regulatory domain in two different cell lines stably expressing SM-N100-ELuc (EC 50 1.3 nM) or SM-N100-GFP-V5 (EC 50 18 nM) constructs ( Fig.…”

Section: Nb-598 Up-regulates Sm Independent Of the C-terminal Catalyticsupporting

confidence: 90%

“…Implications for Other Studies. Although the structure of the catalytic domain of SM with NB-598 was recently published, the SM-N100 region has remained refractory to crystallization (12). Yet structural analyses should provide a clearer understanding of how SM-N100 senses squalene.…”

Section: Discussionmentioning

confidence: 99%

“…2B). NB-598, which tightly binds to the active site of SM (12), up-regulated SM-ΔN100-ELuc with an EC 50 of 0.44 nM (Fig. 2C).…”

Section: Nb-598 Up-regulates Sm Independent Of the C-terminal Catalyticmentioning

confidence: 98%

“…Despite its importance in cholesterol-accelerated degradation, the structure and function of the SM-N100 region has not been fully resolved. Thus far, biochemical analyses have revealed the presence of a reentrant loop anchoring SM to the ER membrane and an amphipathic helix required for cholesterol-accelerated degradation (7,8), while X-ray crystallography has revealed the architecture of the catalytic domain of SM (12). However, the highly hydrophobic and disordered nature of the N100 region has hampered purification and structural analysis of this region or full-length SM (12,13).…”

mentioning

confidence: 99%

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A key mammalian cholesterol synthesis enzyme, squalene monooxygenase, is allosterically stabilized by its substrate

Yoshioka

Coates

Chua

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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Cholesterol biosynthesis is a high-cost process and, therefore, tightly regulated by both transcriptional and posttranslational negative feedback mechanisms in response to the level of cellular cholesterol. Squalene monooxygenase (SM, also known as squalene epoxidase or SQLE) is a rate-limiting enzyme in the cholesterol biosynthetic pathway and catalyzes epoxidation of squalene. The stability of SM is negatively regulated by cholesterol via its N-terminal regulatory domain (SM-N100). In this study, using a SM-luciferase fusion reporter cell line, we performed a chemical genetics screen that identified inhibitors of SM itself as up-regulators of SM. This effect was mediated through the SM-N100 region, competed with cholesterol-accelerated degradation, and required the E3 ubiquitin ligase MARCH6. However, up-regulation was not observed with statins, well-established cholesterol biosynthesis inhibitors, and this pointed to the presence of another mechanism other than reduced cholesterol synthesis. Further analyses revealed that squalene accumulation upon treatment with the SM inhibitor was responsible for the up-regulatory effect. Using photoaffinity labeling, we demonstrated that squalene directly bound to the N100 region, thereby reducing interaction with and ubiquitination by MARCH6. Our findings suggest that SM senses squalene via its N100 domain to increase its metabolic capacity, highlighting squalene as a feedforward factor for the cholesterol biosynthetic pathway.

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Section: Nb-598 Up-regulates Sm Independent Of the C-terminal Catalyticsupporting

confidence: 90%

Section: Discussionmentioning

confidence: 99%

“…2B). NB-598, which tightly binds to the active site of SM (12), up-regulated SM-ΔN100-ELuc with an EC 50 of 0.44 nM (Fig. 2C).…”

Section: Nb-598 Up-regulates Sm Independent Of the C-terminal Catalyticmentioning

confidence: 98%

mentioning

confidence: 99%

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A key mammalian cholesterol synthesis enzyme, squalene monooxygenase, is allosterically stabilized by its substrate

Yoshioka

Coates

Chua

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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“…7. Unlike the data determined for the common C 25 precursor geranylfarnesyl diphosphate (GFPP) with respect to sesterterpene biosynthesis, farnesyl-diphosphate farnesyltransferase KDQ25270 likely catalyzed geranyl pyrophosphate (GPP) and farnesyl pyrophosphate (FPP) to form the C 25 precursor, which then underwent a series of posttailoring modifications to generate postrediene A to C. KDQ25268 showed 55% identity to squalene epoxidase catalyzing the stereospecific conversion of squalene to 2,3(S)-oxidosqualene (25), which was proposed to catalyze the epoxidation reactions in the C-2, C-3, C-10, C-11, C-18, and C-19 positions. Subsequently, epoxide openings cascaded in these positions to produce postrediene A, and those steps might have been catalyzed by an epoxide hydrolase, which has often been found to catalyze the conversion of epoxides to trans-dihydrodiols (26).…”

Section: Shen Et Almentioning

confidence: 60%

Unusual and Highly Bioactive Sesterterpenes Synthesized by Pleurotus ostreatus during Coculture with Trametes robiniophila Murr

Shen

Zhu

et al. 2019

Appl Environ Microbiol

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Candida albicans and Cryptococcus neoformans, human-pathogenic fungi found worldwide, are receiving increasing attention due to high morbidity and mortality in immunocompromised patients. In the present work, 110 fungus pairs were constructed by coculturing 16 wood-decaying basidiomycetes, among which coculture of Trametes robiniophila Murr and Pleurotus ostreatus was found to strongly inhibit pathogenic fungi through bioactivity-guided assays. A combination of metabolomics and molecular network analysis revealed that 44 features were either newly synthesized or produced at high levels in this coculture system and that 6 of the features that belonged to a family of novel and unusual linear sesterterpenes contributed to high activity with MICs of 1 to 32 g/ml against pathogenic fungi. Furthermore, dynamic 13 C-labeling analysis revealed an association between induced features and the corresponding fungi. Unusual sesterterpenes were 13 C labeled only in P. ostreatus in a time course after stimulation by the coculture, suggesting that these sesterterpenes were synthesized by P. ostreatus instead of T. robiniophila Murr. Sesterterpene compounds 1 to 3 were renamed postrediene A to C. Real-time reverse transcription-quantitative PCR (RT-qPCR) analysis revealed that transcriptional levels of three genes encoding terpene synthase, farnesyl-diphosphate farnesyltransferase, and oxidase were found to be 8.2-fold, 88.7-fold, and 21.6-fold higher, respectively, in the coculture than in the monoculture, indicating that biosynthetic gene cluster 10 was most likely responsible for the synthesis of these sesterterpenes. A putative biosynthetic pathway of postrediene A to postrediene C was then proposed based on structures of sesterterpenes and molecular network analysis.

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Clinical Course, Antifungal Susceptibility, and Genomic Sequencing of Trichophyton indotineae

Caplan,

Todd,

Zhu

et al. 2024

JAMA Dermatol

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ImportanceTrichophyton indotineae is an emerging dermatophyte causing outbreaks of extensive tinea infections often unresponsive to terbinafine. This species has been detected worldwide and in multiple US states, yet detailed US data on infections with T indotineae are sparse and could improve treatment practices and medical understanding of transmission.ObjectiveTo correlate clinical features of T indotineae infections with in vitro antifungal susceptibility testing results, squalene epoxidase gene sequence variations, and isolate relatedness using whole-genome sequencing.Design, Setting, and ParticipantsThis retrospective cohort study of patients with T indotineae infections in New York City spanned May 2022 to May 2023. Patients with confirmed T indotineae infections were recruited from 6 New York City medical centers.Main Outcome and MeasureImprovement or resolution at the last follow-up assessment.ResultsAmong 11 patients with T indotineae (6 male and 5 female patients; median [range] age, 39 [10-65] years), 2 were pregnant; 1 had lymphoma; and the remainder were immunocompetent. Nine patients reported previous travel to Bangladesh. All had widespread lesions with variable scale and inflammation, topical antifungal monotherapy failure, and diagnostic delays (range, 3-42 months). Terbinafine treatment failed in 7 patients at standard doses (250 mg daily) for prolonged duration; these patients also had isolates with amino acid substitutions at positions 393 (L393S) or 397 (F397L) in squalene epoxidase that correlated with elevated terbinafine minimum inhibitory concentrations of 0.5 μg/mL or higher. Patients who were treated with fluconazole and griseofulvin improved in 2 of 4 and 2 of 5 instances, respectively, without correlation between outcomes and antifungal minimum inhibitory concentrations. Furthermore, 5 of 7 patients treated with itraconazole cleared or had improvement at the last follow-up, and 2 of 7 were lost to follow-up or stopped treatment. Based on whole-genome sequencing analysis, US isolates formed a cluster distinct from Indian isolates.Conclusion and RelevanceThe results of this case series suggest that disease severity, diagnostic delays, and lack of response to typically used doses and durations of antifungals for tinea were common in this primarily immunocompetent patient cohort with T indotineae, consistent with published data. Itraconazole was generally effective, and the acquisition of infection was likely in Bangladesh.

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Structure and inhibition mechanism of the catalytic domain of human squalene epoxidase

Cited by 90 publications

References 39 publications

A key mammalian cholesterol synthesis enzyme, squalene monooxygenase, is allosterically stabilized by its substrate

A key mammalian cholesterol synthesis enzyme, squalene monooxygenase, is allosterically stabilized by its substrate

Unusual and Highly Bioactive Sesterterpenes Synthesized by Pleurotus ostreatus during Coculture with Trametes robiniophila Murr

Clinical Course, Antifungal Susceptibility, and Genomic Sequencing of Trichophyton indotineae

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