Triazole Resistance and Misidentification of Aspergillus tubingensis in Southern California

Yashan Wang; Maliha Aziz; Kaeley Bush; Gregg S. Davis; Jeffrey T. Foster; Søren Hallstrøm; Amber Jones; Paul S. Keim; Reed Leventis; Cindy M. Liu; Sydney G. Nelson; Daniel E. Park; Magdalena Pomichowski; Vanessa Quinlivan; Emily Rayens; Jason W. Sahl; June Sass; Jessica Skela; Edward Sung; Jack Villani; Matthew Zimmerman; Marc Stegger; Sara Y. Tartof; Lance B. Price

doi:10.1001/jamanetworkopen.2025.43630

Triazole Resistance and Misidentification of Aspergillus tubingensis in Southern California

Yashan Wang
, Maliha Aziz
, Kaeley Bush
, Gregg S. Davis
, Jeffrey T. Foster
, Søren Hallstrøm
, Amber Jones
, Paul S. Keim
, Reed Leventis
, Cindy M. Liu
, Sydney G. Nelson
, Daniel E. Park
, Magdalena Pomichowski
, Vanessa Quinlivan
, Emily Rayens
, Jason W. Sahl
, June Sass
, Jessica Skela
, Edward Sung
, Jack Villani

Matthew Zimmerman, Marc Stegger, Sara Y. Tartof, Lance B. Price

Biological Sciences

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Importance Accurate species identification and antifungal susceptibility testing are essential for effective aspergillosis treatment. However, non–Aspergillus fumigatus species, such as Aspergillus tubingensis, are often misidentified and understudied, potentially compromising proper prognosis and treatment. Objective To examine the species and prevalence of triazole resistance among clinical Aspergillus isolates in Southern California. Design, Setting, and Participants This cross-sectional study collected clinical Aspergillus cultures from September 1, 2019, to June 30, 2023, at Kaiser Permanente Southern California, an integrated health system serving a diverse regional population. Triazole susceptibility testing and whole genome sequencing were performed on selected isolates. A total of 2421 consecutive Aspergillus cultures were included. Eighty putative Aspergillus niger isolates were selected for sequencing, including 44 with positive growth in the presence of at least one clinically relevant triazole. Main Outcomes and Measures The primary outcome was the genome-based species identification of A tubingensis. The secondary outcome was triazole susceptibility above the A niger epidemiological cut-off values. The hypothesis that A tubingensis is a prevalent, underrecognized, triazole-resistant pathogen was developed during data collection. Results Of 2421 cultures, 1835 were successfully cultured for Aspergillus. After purification and deduplication, 1505 isolates were screened for triazole resistance. A substantial fraction of putative A niger isolates grew at the A niger epidemiological cut-off for itraconazole (110 of 664 [15.1%]). DNA sequencing revealed that 59 of 80 putative A niger isolates (73.8%) were actually A tubingensis. Elevated triazole minimum inhibitory concentrations were not strongly associated with any known cyp51 mutations among the A tubingensis isolates. Conclusions and Relevance In this cross-sectional study of Aspergillus isolates from Kaiser Permanente Southern California, A tubingensis was a prevalent but underrecognized cause of aspergillosis in Southern California. Its frequent misidentification, association with invasive infections, and triazole resistance underscore the need for improved diagnostics and species-specific epidemiological investigations.

Original language	English (US)
Article number	e2543630
Journal	JAMA network open
Volume	8
Issue number	12
DOIs	https://doi.org/10.1001/jamanetworkopen.2025.43630
State	Published - Dec 4 2025

ASJC Scopus subject areas

General Medicine

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10.1001/jamanetworkopen.2025.43630

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Wang, Y., Aziz, M., Bush, K., Davis, G. S., Foster, J. T., Hallstrøm, S., Jones, A., Keim, P. S., Leventis, R., Liu, C. M., Nelson, S. G., Park, D. E., Pomichowski, M., Quinlivan, V., Rayens, E., Sahl, J. W., Sass, J., Skela, J., Sung, E., ... Price, L. B. (2025). Triazole Resistance and Misidentification of Aspergillus tubingensis in Southern California. JAMA network open, 8(12), Article e2543630. https://doi.org/10.1001/jamanetworkopen.2025.43630

Wang, Y, Aziz, M, Bush, K, Davis, GS, Foster, JT, Hallstrøm, S, Jones, A, Keim, PS, Leventis, R, Liu, CM, Nelson, SG, Park, DE, Pomichowski, M, Quinlivan, V, Rayens, E, Sahl, JW, Sass, J, Skela, J, Sung, E, Villani, J, Zimmerman, M, Stegger, M, Tartof, SY & Price, LB 2025, 'Triazole Resistance and Misidentification of Aspergillus tubingensis in Southern California', JAMA network open, vol. 8, no. 12, e2543630. https://doi.org/10.1001/jamanetworkopen.2025.43630

@article{0b411302d1334659b88efc909930befc,

title = "Triazole Resistance and Misidentification of Aspergillus tubingensis in Southern California",

abstract = "Importance Accurate species identification and antifungal susceptibility testing are essential for effective aspergillosis treatment. However, non–Aspergillus fumigatus species, such as Aspergillus tubingensis, are often misidentified and understudied, potentially compromising proper prognosis and treatment. Objective To examine the species and prevalence of triazole resistance among clinical Aspergillus isolates in Southern California. Design, Setting, and Participants This cross-sectional study collected clinical Aspergillus cultures from September 1, 2019, to June 30, 2023, at Kaiser Permanente Southern California, an integrated health system serving a diverse regional population. Triazole susceptibility testing and whole genome sequencing were performed on selected isolates. A total of 2421 consecutive Aspergillus cultures were included. Eighty putative Aspergillus niger isolates were selected for sequencing, including 44 with positive growth in the presence of at least one clinically relevant triazole. Main Outcomes and Measures The primary outcome was the genome-based species identification of A tubingensis. The secondary outcome was triazole susceptibility above the A niger epidemiological cut-off values. The hypothesis that A tubingensis is a prevalent, underrecognized, triazole-resistant pathogen was developed during data collection. Results Of 2421 cultures, 1835 were successfully cultured for Aspergillus. After purification and deduplication, 1505 isolates were screened for triazole resistance. A substantial fraction of putative A niger isolates grew at the A niger epidemiological cut-off for itraconazole (110 of 664 [15.1\%]). DNA sequencing revealed that 59 of 80 putative A niger isolates (73.8\%) were actually A tubingensis. Elevated triazole minimum inhibitory concentrations were not strongly associated with any known cyp51 mutations among the A tubingensis isolates. Conclusions and Relevance In this cross-sectional study of Aspergillus isolates from Kaiser Permanente Southern California, A tubingensis was a prevalent but underrecognized cause of aspergillosis in Southern California. Its frequent misidentification, association with invasive infections, and triazole resistance underscore the need for improved diagnostics and species-specific epidemiological investigations.",

author = "Yashan Wang and Maliha Aziz and Kaeley Bush and Davis, \{Gregg S.\} and Foster, \{Jeffrey T.\} and S{\o}ren Hallstr{\o}m and Amber Jones and Keim, \{Paul S.\} and Reed Leventis and Liu, \{Cindy M.\} and Nelson, \{Sydney G.\} and Park, \{Daniel E.\} and Magdalena Pomichowski and Vanessa Quinlivan and Emily Rayens and Sahl, \{Jason W.\} and June Sass and Jessica Skela and Edward Sung and Jack Villani and Matthew Zimmerman and Marc Stegger and Tartof, \{Sara Y.\} and Price, \{Lance B.\}",

note = "Publisher Copyright: {\textcopyright} 2025 Wang Y et al.",

year = "2025",

month = dec,

day = "4",

doi = "10.1001/jamanetworkopen.2025.43630",

language = "English (US)",

volume = "8",

journal = "JAMA network open",

issn = "2574-3805",

publisher = "American Medical Association",

number = "12",

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TY - JOUR

T1 - Triazole Resistance and Misidentification of Aspergillus tubingensis in Southern California

AU - Wang, Yashan

AU - Aziz, Maliha

AU - Bush, Kaeley

AU - Davis, Gregg S.

AU - Foster, Jeffrey T.

AU - Hallstrøm, Søren

AU - Jones, Amber

AU - Keim, Paul S.

AU - Leventis, Reed

AU - Liu, Cindy M.

AU - Nelson, Sydney G.

AU - Park, Daniel E.

AU - Pomichowski, Magdalena

AU - Quinlivan, Vanessa

AU - Rayens, Emily

AU - Sahl, Jason W.

AU - Sass, June

AU - Skela, Jessica

AU - Sung, Edward

AU - Villani, Jack

AU - Zimmerman, Matthew

AU - Stegger, Marc

AU - Tartof, Sara Y.

AU - Price, Lance B.

PY - 2025/12/4

Y1 - 2025/12/4

N2 - Importance Accurate species identification and antifungal susceptibility testing are essential for effective aspergillosis treatment. However, non–Aspergillus fumigatus species, such as Aspergillus tubingensis, are often misidentified and understudied, potentially compromising proper prognosis and treatment. Objective To examine the species and prevalence of triazole resistance among clinical Aspergillus isolates in Southern California. Design, Setting, and Participants This cross-sectional study collected clinical Aspergillus cultures from September 1, 2019, to June 30, 2023, at Kaiser Permanente Southern California, an integrated health system serving a diverse regional population. Triazole susceptibility testing and whole genome sequencing were performed on selected isolates. A total of 2421 consecutive Aspergillus cultures were included. Eighty putative Aspergillus niger isolates were selected for sequencing, including 44 with positive growth in the presence of at least one clinically relevant triazole. Main Outcomes and Measures The primary outcome was the genome-based species identification of A tubingensis. The secondary outcome was triazole susceptibility above the A niger epidemiological cut-off values. The hypothesis that A tubingensis is a prevalent, underrecognized, triazole-resistant pathogen was developed during data collection. Results Of 2421 cultures, 1835 were successfully cultured for Aspergillus. After purification and deduplication, 1505 isolates were screened for triazole resistance. A substantial fraction of putative A niger isolates grew at the A niger epidemiological cut-off for itraconazole (110 of 664 [15.1%]). DNA sequencing revealed that 59 of 80 putative A niger isolates (73.8%) were actually A tubingensis. Elevated triazole minimum inhibitory concentrations were not strongly associated with any known cyp51 mutations among the A tubingensis isolates. Conclusions and Relevance In this cross-sectional study of Aspergillus isolates from Kaiser Permanente Southern California, A tubingensis was a prevalent but underrecognized cause of aspergillosis in Southern California. Its frequent misidentification, association with invasive infections, and triazole resistance underscore the need for improved diagnostics and species-specific epidemiological investigations.

AB - Importance Accurate species identification and antifungal susceptibility testing are essential for effective aspergillosis treatment. However, non–Aspergillus fumigatus species, such as Aspergillus tubingensis, are often misidentified and understudied, potentially compromising proper prognosis and treatment. Objective To examine the species and prevalence of triazole resistance among clinical Aspergillus isolates in Southern California. Design, Setting, and Participants This cross-sectional study collected clinical Aspergillus cultures from September 1, 2019, to June 30, 2023, at Kaiser Permanente Southern California, an integrated health system serving a diverse regional population. Triazole susceptibility testing and whole genome sequencing were performed on selected isolates. A total of 2421 consecutive Aspergillus cultures were included. Eighty putative Aspergillus niger isolates were selected for sequencing, including 44 with positive growth in the presence of at least one clinically relevant triazole. Main Outcomes and Measures The primary outcome was the genome-based species identification of A tubingensis. The secondary outcome was triazole susceptibility above the A niger epidemiological cut-off values. The hypothesis that A tubingensis is a prevalent, underrecognized, triazole-resistant pathogen was developed during data collection. Results Of 2421 cultures, 1835 were successfully cultured for Aspergillus. After purification and deduplication, 1505 isolates were screened for triazole resistance. A substantial fraction of putative A niger isolates grew at the A niger epidemiological cut-off for itraconazole (110 of 664 [15.1%]). DNA sequencing revealed that 59 of 80 putative A niger isolates (73.8%) were actually A tubingensis. Elevated triazole minimum inhibitory concentrations were not strongly associated with any known cyp51 mutations among the A tubingensis isolates. Conclusions and Relevance In this cross-sectional study of Aspergillus isolates from Kaiser Permanente Southern California, A tubingensis was a prevalent but underrecognized cause of aspergillosis in Southern California. Its frequent misidentification, association with invasive infections, and triazole resistance underscore the need for improved diagnostics and species-specific epidemiological investigations.

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DO - 10.1001/jamanetworkopen.2025.43630

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IS - 12

M1 - e2543630

ER -

Triazole Resistance and Misidentification of Aspergillus tubingensis in Southern California

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