Proteomic Ligandability Maps of Phosphorus(V) Stereoprobes Identify Covalent TLCD1 Inhibitors

Hayden A. Sharma; Michael Bielecki; Meredith A. Holm; Ty M. Thompson; Yue Yin; Jacob B. Cravatt; Timothy B. Ware; Alex Reed; Molhm Nassir; Tamara El Hayek Ewing; Bruno Melillo; J. Fernando Bazan; Phil S. Baran; Benjamin F. Cravatt

doi:10.1021/jacs.5c01944

Proteomic Ligandability Maps of Phosphorus(V) Stereoprobes Identify Covalent TLCD1 Inhibitors

Hayden A. Sharma, Michael Bielecki, Meredith A. Holm, Ty M. Thompson, Yue Yin, Jacob B. Cravatt, Timothy B. Ware, Alex Reed, Molhm Nassir, Tamara El Hayek Ewing, Bruno Melillo, J. Fernando Bazan, Phil S. Baran, Benjamin F. Cravatt

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

Abstract

Activity-based protein profiling (ABPP) of stereoisomerically defined sets of electrophilic compounds (‘stereoprobes’) offers a versatile way to discover covalent ligands for proteins in native biological systems. Here we report the synthesis and chemical proteomic characterization of stereoprobes bearing a P(V)-oxathiaphospholane (OTP) reactive group. ABPP experiments identified numerous proteins in human cancer cells that showed stereoselective reactivity with OTP stereoprobes, and we confirmed several of these liganding events with recombinant proteins. OTP stereoprobes engaging the poorly characterized transmembrane protein TLCD1 impaired the incorporation of monounsaturated fatty acids into phosphatidylethanolamine lipids in cells, a lipidomic phenotype that mirrored genetic disruption of this protein. Using AlphaFold2, we found that TLCD1 structurally resembles the ceramide synthase and fatty acid elongase families of coenzyme A-dependent lipid processing enzymes. This structural similarity included conservation of catalytic histidine residues, the mutation of which blocked the OTP stereoprobe reactivity and lipid remodeling activity of recombinant TLCD1. Taken together, these data indicate that TLCD1 acts as a lipid acyltransferase in cells, and that OTP stereoprobes function as inhibitors of this enzymatic activity. Our findings thus illuminate how the chemical proteomic analysis of electrophilic compounds can facilitate the functional annotation and chemical inhibition of a key lipid metabolic enzyme in human cells.

Original language	English
Pages (from-to)	15554-15566
Number of pages	13
Journal	Journal of the American Chemical Society
Volume	147
Issue number	18
DOIs	https://doi.org/10.1021/jacs.5c01944
State	Published - 7 May 2025
Externally published	Yes

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Publisher Copyright:
© 2025 American Chemical Society.

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Sharma, H. A., Bielecki, M., Holm, M. A., Thompson, T. M., Yin, Y., Cravatt, J. B., Ware, T. B., Reed, A., Nassir, M., Ewing, T. E. H., Melillo, B., Bazan, J. F., Baran, P. S., & Cravatt, B. F. (2025). Proteomic Ligandability Maps of Phosphorus(V) Stereoprobes Identify Covalent TLCD1 Inhibitors. Journal of the American Chemical Society, 147(18), 15554-15566. https://doi.org/10.1021/jacs.5c01944

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title = "Proteomic Ligandability Maps of Phosphorus(V) Stereoprobes Identify Covalent TLCD1 Inhibitors",

abstract = "Activity-based protein profiling (ABPP) of stereoisomerically defined sets of electrophilic compounds ({\textquoteleft}stereoprobes{\textquoteright}) offers a versatile way to discover covalent ligands for proteins in native biological systems. Here we report the synthesis and chemical proteomic characterization of stereoprobes bearing a P(V)-oxathiaphospholane (OTP) reactive group. ABPP experiments identified numerous proteins in human cancer cells that showed stereoselective reactivity with OTP stereoprobes, and we confirmed several of these liganding events with recombinant proteins. OTP stereoprobes engaging the poorly characterized transmembrane protein TLCD1 impaired the incorporation of monounsaturated fatty acids into phosphatidylethanolamine lipids in cells, a lipidomic phenotype that mirrored genetic disruption of this protein. Using AlphaFold2, we found that TLCD1 structurally resembles the ceramide synthase and fatty acid elongase families of coenzyme A-dependent lipid processing enzymes. This structural similarity included conservation of catalytic histidine residues, the mutation of which blocked the OTP stereoprobe reactivity and lipid remodeling activity of recombinant TLCD1. Taken together, these data indicate that TLCD1 acts as a lipid acyltransferase in cells, and that OTP stereoprobes function as inhibitors of this enzymatic activity. Our findings thus illuminate how the chemical proteomic analysis of electrophilic compounds can facilitate the functional annotation and chemical inhibition of a key lipid metabolic enzyme in human cells.",

author = "Sharma, {Hayden A.} and Michael Bielecki and Holm, {Meredith A.} and Thompson, {Ty M.} and Yue Yin and Cravatt, {Jacob B.} and Ware, {Timothy B.} and Alex Reed and Molhm Nassir and Ewing, {Tamara El Hayek} and Bruno Melillo and Bazan, {J. Fernando} and Baran, {Phil S.} and Cravatt, {Benjamin F.}",

note = "Publisher Copyright: {\textcopyright} 2025 American Chemical Society.",

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month = may,

day = "7",

doi = "10.1021/jacs.5c01944",

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Sharma, HA, Bielecki, M, Holm, MA, Thompson, TM, Yin, Y, Cravatt, JB, Ware, TB, Reed, A, Nassir, M, Ewing, TEH, Melillo, B, Bazan, JF, Baran, PS & Cravatt, BF 2025, 'Proteomic Ligandability Maps of Phosphorus(V) Stereoprobes Identify Covalent TLCD1 Inhibitors', Journal of the American Chemical Society, vol. 147, no. 18, pp. 15554-15566. https://doi.org/10.1021/jacs.5c01944

TY - JOUR

T1 - Proteomic Ligandability Maps of Phosphorus(V) Stereoprobes Identify Covalent TLCD1 Inhibitors

AU - Sharma, Hayden A.

AU - Bielecki, Michael

AU - Holm, Meredith A.

AU - Thompson, Ty M.

AU - Yin, Yue

AU - Cravatt, Jacob B.

AU - Ware, Timothy B.

AU - Reed, Alex

AU - Nassir, Molhm

AU - Ewing, Tamara El Hayek

AU - Melillo, Bruno

AU - Bazan, J. Fernando

AU - Baran, Phil S.

AU - Cravatt, Benjamin F.

PY - 2025/5/7

Y1 - 2025/5/7

N2 - Activity-based protein profiling (ABPP) of stereoisomerically defined sets of electrophilic compounds (‘stereoprobes’) offers a versatile way to discover covalent ligands for proteins in native biological systems. Here we report the synthesis and chemical proteomic characterization of stereoprobes bearing a P(V)-oxathiaphospholane (OTP) reactive group. ABPP experiments identified numerous proteins in human cancer cells that showed stereoselective reactivity with OTP stereoprobes, and we confirmed several of these liganding events with recombinant proteins. OTP stereoprobes engaging the poorly characterized transmembrane protein TLCD1 impaired the incorporation of monounsaturated fatty acids into phosphatidylethanolamine lipids in cells, a lipidomic phenotype that mirrored genetic disruption of this protein. Using AlphaFold2, we found that TLCD1 structurally resembles the ceramide synthase and fatty acid elongase families of coenzyme A-dependent lipid processing enzymes. This structural similarity included conservation of catalytic histidine residues, the mutation of which blocked the OTP stereoprobe reactivity and lipid remodeling activity of recombinant TLCD1. Taken together, these data indicate that TLCD1 acts as a lipid acyltransferase in cells, and that OTP stereoprobes function as inhibitors of this enzymatic activity. Our findings thus illuminate how the chemical proteomic analysis of electrophilic compounds can facilitate the functional annotation and chemical inhibition of a key lipid metabolic enzyme in human cells.

AB - Activity-based protein profiling (ABPP) of stereoisomerically defined sets of electrophilic compounds (‘stereoprobes’) offers a versatile way to discover covalent ligands for proteins in native biological systems. Here we report the synthesis and chemical proteomic characterization of stereoprobes bearing a P(V)-oxathiaphospholane (OTP) reactive group. ABPP experiments identified numerous proteins in human cancer cells that showed stereoselective reactivity with OTP stereoprobes, and we confirmed several of these liganding events with recombinant proteins. OTP stereoprobes engaging the poorly characterized transmembrane protein TLCD1 impaired the incorporation of monounsaturated fatty acids into phosphatidylethanolamine lipids in cells, a lipidomic phenotype that mirrored genetic disruption of this protein. Using AlphaFold2, we found that TLCD1 structurally resembles the ceramide synthase and fatty acid elongase families of coenzyme A-dependent lipid processing enzymes. This structural similarity included conservation of catalytic histidine residues, the mutation of which blocked the OTP stereoprobe reactivity and lipid remodeling activity of recombinant TLCD1. Taken together, these data indicate that TLCD1 acts as a lipid acyltransferase in cells, and that OTP stereoprobes function as inhibitors of this enzymatic activity. Our findings thus illuminate how the chemical proteomic analysis of electrophilic compounds can facilitate the functional annotation and chemical inhibition of a key lipid metabolic enzyme in human cells.

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AN - SCOPUS:105003863426

SN - 0002-7863

VL - 147

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JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 18

ER -

Proteomic Ligandability Maps of Phosphorus(V) Stereoprobes Identify Covalent TLCD1 Inhibitors

Abstract

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