Bm -iAANAT and its potential role in fatty acid amide biosynthesis in Bombyx mori

Anderson, Ryan L.; Battistini, Matthew R.; Wallis, Dylan J.; Shoji, Christopher; O’Flynn, Brian G.; Dillashaw, John E.; Merkler, David J.

doi:10.1016/j.plefa.2018.06.001

Cited by 10 publications

(20 citation statements)

References 58 publications

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“…In applying this strategy to identify amine substrates for Bm -iAANAT3, a relatively high concentration of each amine (20 mM or 60 mM, Table 1) was included in the pool because the K m value for glycine is reported at ≥6 mM for some of the glycine N -acyltransferases [38–40]. Pools of acyl-CoA substrates were not constructed because of the reports of long-chain acyl-CoAs acting as AANAT inhibitors [29,40,41]; therefore, we individually cross-screened amine pools against archetypal short and long-chain acyl-CoA thioesters, acetyl-CoA and oleoyl-CoA, because both have been reported as substrates for other GNAT family acyltransferases [20,21]. For Bm -iAANAT3, we found no initial velocity increase with oleoyl-CoA above the low enzyme-independent, background rate of oleoyl-CoA hydrolysis, suggesting that this enzyme does not catalyze the formation of long-chain N -acylamides.…”

Section: Resultsmentioning

confidence: 99%

“…While fatty acid amides have been recently identified in B. mori [21], Bm -iAANAT3 is probably not involved in their biosynthesis in vivo . Bm -iAANAT3 accepts a variety of amines as substrates pointing towards a cellular role for this enzyme in amine inactivation and/or excretion.…”

Section: Discussionmentioning

confidence: 99%

“…Our interest in the AANATs is derived from our work on the biosynthesis of the fatty acid amides [16,17], a family of cell signaling lipids [18]. We and others have found that AANAT-like (AANATL) enzymes will catalyze the formation of fatty acid amides from fatty acyl-CoA thioesters and the corresponding amines [17,19–21]. Database searches of insect genomes indicate that a number of iAANATs and iAANATLs could be expressed in a variety of insects [7,14,22].…”

Section: Introductionmentioning

confidence: 99%

“…In addition, we plan to extend our mechanistic work on the AANATs to focus on structural elucidation by NMR spectroscopy and X-ray crystallography. The other iAANATs we have over-expressed [20,21,29–32] have thwarted such experiments because these enzymes precipitate at high protein concentrations. Bm -iAANAT3 does not precipitate at high protein concentration enabling structural studies of this enzyme by NMR [33,34].…”

Section: Introductionmentioning

confidence: 99%

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Bm-iAANAT3: Expression and characterization of a novel arylalkylamine N-acyltransferase from Bombyx mori

Battistini

O’Flynn

Shoji

et al. 2019

Archives of Biochemistry and Biophysics

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The arylalkylamine N-acyltransferases (AANATs) are enzymes that catalyze the acyl-CoA-dependent formation of N-acylarylalkylamides: acyl-CoA + arylalkylamine → N-acylarylalkylamides + CoA-SH. Herein, we describe our study of a previously uncharacterized AANAT from Bombyx mori: Bm-iAANAT3. Bm-iAANAT3 catalyzes the direct formation of N-acylarylalkylamides and accepts a broad range of short-chain acyl-CoA thioesters and amines as substrates. Acyl-CoA thioesters possessing an acyl chain length >10 carbon atoms are not substrates for Bm-iAANAT3. We report that Bm-iAANAT3 is a “versatile generalist”, most likely, functioning in amine acetylation – a reaction in amine inactivation/excretion, cuticle sclerotization, and melanism. We propose a kinetic and chemical mechanism for Bm-iAANAT3 that is consistent with our steady-state kinetic analysis, dead-end inhibition studies, determination of the pH-rate profiles, and site-directed mutagenesis of a catalytically important amino acid in Bm-iAANAT3. These mechanistic studies of Bm-iAANAT3 will foster the development of novel compounds targeted against this enzyme and other insect AANATs for the control of insect pests.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Bm-iAANAT3: Expression and characterization of a novel arylalkylamine N-acyltransferase from Bombyx mori

Battistini

O’Flynn

Shoji

et al. 2019

Archives of Biochemistry and Biophysics

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“…We have proposed that novel iAANATs exist which will catalyze the acyl-CoA-dependent formation of these N -fatty acylamides (Figure 2 ). AANATs in D. melanogaster (Dempsey et al, 2014a ) and B. mori (Anderson et al, 2018 ; Battistini, 2015 ) have been identified that will utilize long-chain fatty acyl-CoA thioesters as substrates leading to the production of these fatty acylamides. Thus, we suggest replacing the name “ N -acetyltransferase” with “ N -acyltransferase” to better reflect the most current data on this family of enzymes.…”

Section: Introductionmentioning

confidence: 99%

Insect Arylalkylamine N-Acyltransferases: Mechanism and Role in Fatty Acid Amide Biosynthesis

O’Flynn

Suarez

Hawley

et al. 2018

Front. Mol. Biosci.

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Arylalkylamine N-acyltransferases (AANATs) catalyze the formation of an N-acylamide from an acyl-CoA thioester and an amine. One well known example is the production of N-acetylserotonin from acetyl-CoA and serotonin, a reaction in the melatonin biosynthetic pathway from tryptophan. AANATs have been identified from a variety of vertebrates and invertebrates. Considerable efforts have been devoted to the mammalian AANAT because a cell-permeable inhibitor specifically targeted against this enzyme could prove useful to treat diseases related to dysfunction in melatonin production. Insects are an interesting model for the study of AANATs because more than one isoform is typically expressed by a specific insect and the different insect AANATs (iAANATs) serve different roles in the insect cell. In contrast, mammals express only one AANAT. The major role of iAANATs seem to be in the production of N-acetyldopamine, a reaction important in the tanning and sclerotization of the cuticle. Metabolites identified in insects including N-acetylserotonin and long-chain N-fatty acyl derivatives of dopamine, histidine, phenylalanine, serotonin, tyrosine, and tryptophan are likely produced by an iAANAT. In vitro studies of specific iAANATs are consistent with this hypothesis. In this review, we highlight the current metabolomic knowledge of the N-acylated aromatic amino acids and N-acylated derivatives of the aromatic amino acids, the current mechanistic understanding of the iAANATs, and explore the possibility that iAANATs serve as insect “rhymezymes” regulating photoperiodism and other rhythmic processes in insects.

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Knockdown of arylalkylamine N‐acetyltransferase‐like 2 in Drosophila melanogaster

Anderson

Wallis

Holliday

et al. 2019

Arch Insect Biochem Physiol

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Drosophila melanogaster produces fatty acid amides, and thus, provides a model to unravel the pathways for their biosynthesis. We previously demonstrated that arylalkylamine N-acetyltransferase-like 2 (AANATL2) from D. melanogaster will catalyze the formation of long-chain N-acylserotonins and N-acyldopamines in vitro. Generating silencing RNA via the UAS/GAL4 bipartite approach for targeted gene expression effectively decreased the endogenous levels of the AANATL2 transcripts in D. melanogaster, as shown by reverse transcription quantitative polymerase chain reaction. Consistent with these data, western blot analysis of the offspring of the AANATL2 knockdown flies using an anti-AANATL2 antibody revealed a significant reduction in the expression of the AANATL2 protein. Reduced expression of AANATL2 decreased the cellular levels of N-palmitoyldopamine (PALDA), providing strong evidence that AANATL2 is responsible for the biosynthesis of PALDA in vivo. This is the first time that the expression of an AANAT has been reduced in D. melanogaster to link one of these enzymes to the in vivo production of an N-acylarylalkylamide.

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Bm -iAANAT and its potential role in fatty acid amide biosynthesis in Bombyx mori

Cited by 10 publications

References 58 publications

Bm-iAANAT3: Expression and characterization of a novel arylalkylamine N-acyltransferase from Bombyx mori

Bm-iAANAT3: Expression and characterization of a novel arylalkylamine N-acyltransferase from Bombyx mori

Insect Arylalkylamine N-Acyltransferases: Mechanism and Role in Fatty Acid Amide Biosynthesis

Knockdown of arylalkylamine N‐acetyltransferase‐like 2 in Drosophila melanogaster

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