Acinetobacter baumannii Employs a Rare Fatty Acid Desaturase for Niche-Specific Host Adaptation

Felise G. Adams; Saleh Alquethamy; Jack K. Waters; Brynley J. Davies; Ella Haracic; Jeffrey D. Nanson; James C. Paton; Jade K. Forwood; Karl A. Hassan; Erin B. Brazel; Claudia Trappetti; Bart A. Eijkelkamp

doi:10.1021/acsinfecdis.4c00765

Acinetobacter baumannii Employs a Rare Fatty Acid Desaturase for Niche-Specific Host Adaptation

Felise G. Adams, Saleh Alquethamy, Jack K. Waters, Brynley J. Davies, Ella Haracic, Jeffrey D. Nanson, James C. Paton, Jade K. Forwood, Karl A. Hassan, Erin B. Brazel, Claudia Trappetti, Bart A. Eijkelkamp

College of Science and Engineering

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

1 Citation (Scopus)

Abstract

Acinetobacter baumannii is a hospital-associated pathogen with unique fatty acid homeostasis features. This includes a reliance on desaturases for proliferation, due to an inability to generate unsaturated fatty acids during the synthesis cycles. However, there are various unexplained gaps in A. baumannii fatty acid homeostasis, such as the desaturation of de novo synthesized fatty acids. We identified a conserved desaturase (DesC) with a rare structural feature that may have roles in coordinating fatty acids with acyl carrier protein conjugants. We showed that DesC can generate fatty acids with cis double bonds in the delta-9 position. Profiling of A. baumannii fatty acids and mRNA transcripts emphasized its significance during fatty acid synthesis. DesC was found to be most critical in mouse niches where A. baumannii relies on fatty acid synthesis. This work has contributed to our understanding of core metabolic features that are key to the disease potential of A. baumannii.

Original language	English
Pages (from-to)	550-557
Number of pages	8
Journal	ACS Infectious Diseases
Volume	11
Issue number	3
Early online date	18 Feb 2025
DOIs	https://doi.org/10.1021/acsinfecdis.4c00765
Publication status	Published - 14 Mar 2025

Keywords

Bacterial
desaturase
host−pathogen interactions
infection
lipid homeostasis
regulation

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Adams, F. G., Alquethamy, S., Waters, J. K., Davies, B. J., Haracic, E., Nanson, J. D., Paton, J. C., Forwood, J. K., Hassan, K. A., Brazel, E. B., Trappetti, C., & Eijkelkamp, B. A. (2025). Acinetobacter baumannii Employs a Rare Fatty Acid Desaturase for Niche-Specific Host Adaptation. ACS Infectious Diseases, 11(3), 550-557. https://doi.org/10.1021/acsinfecdis.4c00765

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abstract = "Acinetobacter baumannii is a hospital-associated pathogen with unique fatty acid homeostasis features. This includes a reliance on desaturases for proliferation, due to an inability to generate unsaturated fatty acids during the synthesis cycles. However, there are various unexplained gaps in A. baumannii fatty acid homeostasis, such as the desaturation of de novo synthesized fatty acids. We identified a conserved desaturase (DesC) with a rare structural feature that may have roles in coordinating fatty acids with acyl carrier protein conjugants. We showed that DesC can generate fatty acids with cis double bonds in the delta-9 position. Profiling of A. baumannii fatty acids and mRNA transcripts emphasized its significance during fatty acid synthesis. DesC was found to be most critical in mouse niches where A. baumannii relies on fatty acid synthesis. This work has contributed to our understanding of core metabolic features that are key to the disease potential of A. baumannii.",

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AU - Nanson, Jeffrey D.

AU - Paton, James C.

AU - Forwood, Jade K.

AU - Hassan, Karl A.

AU - Brazel, Erin B.

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AU - Eijkelkamp, Bart A.

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AB - Acinetobacter baumannii is a hospital-associated pathogen with unique fatty acid homeostasis features. This includes a reliance on desaturases for proliferation, due to an inability to generate unsaturated fatty acids during the synthesis cycles. However, there are various unexplained gaps in A. baumannii fatty acid homeostasis, such as the desaturation of de novo synthesized fatty acids. We identified a conserved desaturase (DesC) with a rare structural feature that may have roles in coordinating fatty acids with acyl carrier protein conjugants. We showed that DesC can generate fatty acids with cis double bonds in the delta-9 position. Profiling of A. baumannii fatty acids and mRNA transcripts emphasized its significance during fatty acid synthesis. DesC was found to be most critical in mouse niches where A. baumannii relies on fatty acid synthesis. This work has contributed to our understanding of core metabolic features that are key to the disease potential of A. baumannii.

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KW - lipid homeostasis

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Acinetobacter baumannii Employs a Rare Fatty Acid Desaturase for Niche-Specific Host Adaptation

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Keywords

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