Targeted detection of endogenous LINE-1 proteins and ORF2p interactions

Mathias I. Nielsen; Justina C. Wolters; Omar G.Rosas Bringas; Hua Jiang; Luciano H. Di Stefano; Mehrnoosh Oghbaie; Samira Hozeifi; Mats J. Nitert; Alienke van Pijkeren; Marieke Smit; Lars ter Morsche; Apostolos Mourtzinos; Vikram Deshpande; Martin S. Taylor; Brian T. Chait; John LaCava

doi:10.1186/s13100-024-00339-4

Targeted detection of endogenous LINE-1 proteins and ORF2p interactions

Mathias I. Nielsen
, Justina C. Wolters^*
, Omar G.Rosas Bringas
, Hua Jiang
, Luciano H. Di Stefano
, Mehrnoosh Oghbaie
, Samira Hozeifi
, Mats J. Nitert
, Alienke van Pijkeren
, Marieke Smit
, Lars ter Morsche
, Apostolos Mourtzinos
, Vikram Deshpande
, Martin S. Taylor
, Brian T. Chait
, John LaCava^*

^*Corresponding author for this work

Analytical Biochemistry

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

2 Citations (Scopus)

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Abstract

Background: Both the expression and activities of LINE-1 (L1) retrotransposons are known to occur in numerous cell-types and are implicated in pathobiological contexts such as aging-related inflammation, autoimmunity, and in cancers. L1s encode two proteins that are translated from bicistronic transcripts. The translation product of ORF1 (ORF1p) has been robustly detected by immunoassays and shotgun mass spectrometry (MS). Yet, more sensitive detection methods would enhance the use of ORF1p as a clinical biomarker. In contrast, until now, no direct evidence of endogenous L1 ORF2 translation to protein (ORF2p) has been shown. Instead, assays for ORF2p have been limited to ectopic L1 ORF over-expression contexts and to indirect detection of endogenous ORF2p enzymatic activity, such as by the sequencing of de novo genomic insertions. Immunoassays for endogenous ORF2p have been problematic, producing apparent false positives due to cross-reactivities, and shotgun MS has not yielded reliable evidence of ORF2p peptides in biological samples.

Results: Here we present targeted mass spectrometry assays, selected and parallel reaction monitoring (SRM and PRM, respectively) to detect and quantify L1 ORF1p and ORF2p at their endogenous abundances. We were able to quantify ORF1p and ORF2p present in our samples down to a range in the low attomoles. Confident in our ability to affinity enrich ORF2p, we describe an interactome associated with endogenous ORF2-containing macromolecular assemblies.

Conclusions: This is the first assay to demonstrate sensitive and robust quantitation of endogenous ORF2p. The ability to assay ORF2p directly and quantitatively will improve our understanding of the developmental and diseased cell states where L1 expression and its activity naturally occur. The ability to simultaneously assay endogenous L1 ORF1p and ORF2p is an important step forward for L1 analytical biochemistry. Endogenous ORF2p interactomes can now be presented with confidence that ORF2p is among the enriched proteins.

Original language	English
Article number	3
Number of pages	19
Journal	Mobile dna
Volume	16
Issue number	1
DOIs	https://doi.org/10.1186/s13100-024-00339-4
Publication status	Published - 6-Feb-2025

Keywords

Cancer
LINE-1
Mass spectrometry
PRM
Retrotransposon
SRM
Targeted proteomics

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Nielsen, M. I., Wolters, J. C., Bringas, O. G. R., Jiang, H., Di Stefano, L. H., Oghbaie, M., Hozeifi, S., Nitert, M. J., van Pijkeren, A., Smit, M., ter Morsche, L., Mourtzinos, A., Deshpande, V., Taylor, M. S., Chait, B. T., & LaCava, J. (2025). Targeted detection of endogenous LINE-1 proteins and ORF2p interactions. Mobile dna, 16(1), Article 3. https://doi.org/10.1186/s13100-024-00339-4

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title = "Targeted detection of endogenous LINE-1 proteins and ORF2p interactions",

abstract = "Background: Both the expression and activities of LINE-1 (L1) retrotransposons are known to occur in numerous cell-types and are implicated in pathobiological contexts such as aging-related inflammation, autoimmunity, and in cancers. L1s encode two proteins that are translated from bicistronic transcripts. The translation product of ORF1 (ORF1p) has been robustly detected by immunoassays and shotgun mass spectrometry (MS). Yet, more sensitive detection methods would enhance the use of ORF1p as a clinical biomarker. In contrast, until now, no direct evidence of endogenous L1 ORF2 translation to protein (ORF2p) has been shown. Instead, assays for ORF2p have been limited to ectopic L1 ORF over-expression contexts and to indirect detection of endogenous ORF2p enzymatic activity, such as by the sequencing of de novo genomic insertions. Immunoassays for endogenous ORF2p have been problematic, producing apparent false positives due to cross-reactivities, and shotgun MS has not yielded reliable evidence of ORF2p peptides in biological samples. Results: Here we present targeted mass spectrometry assays, selected and parallel reaction monitoring (SRM and PRM, respectively) to detect and quantify L1 ORF1p and ORF2p at their endogenous abundances. We were able to quantify ORF1p and ORF2p present in our samples down to a range in the low attomoles. Confident in our ability to affinity enrich ORF2p, we describe an interactome associated with endogenous ORF2-containing macromolecular assemblies. Conclusions: This is the first assay to demonstrate sensitive and robust quantitation of endogenous ORF2p. The ability to assay ORF2p directly and quantitatively will improve our understanding of the developmental and diseased cell states where L1 expression and its activity naturally occur. The ability to simultaneously assay endogenous L1 ORF1p and ORF2p is an important step forward for L1 analytical biochemistry. Endogenous ORF2p interactomes can now be presented with confidence that ORF2p is among the enriched proteins.",

keywords = "Cancer, LINE-1, Mass spectrometry, PRM, Retrotransposon, SRM, Targeted proteomics",

author = "Nielsen, \{Mathias I.\} and Wolters, \{Justina C.\} and Bringas, \{Omar G.Rosas\} and Hua Jiang and \{Di Stefano\}, \{Luciano H.\} and Mehrnoosh Oghbaie and Samira Hozeifi and Nitert, \{Mats J.\} and \{van Pijkeren\}, Alienke and Marieke Smit and \{ter Morsche\}, Lars and Apostolos Mourtzinos and Vikram Deshpande and Taylor, \{Martin S.\} and Chait, \{Brian T.\} and John LaCava",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = feb,

day = "6",

doi = "10.1186/s13100-024-00339-4",

language = "English",

volume = "16",

journal = "Mobile dna",

issn = "1759-8753",

publisher = "BMC",

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TY - JOUR

T1 - Targeted detection of endogenous LINE-1 proteins and ORF2p interactions

AU - Nielsen, Mathias I.

AU - Wolters, Justina C.

AU - Bringas, Omar G.Rosas

AU - Jiang, Hua

AU - Di Stefano, Luciano H.

AU - Oghbaie, Mehrnoosh

AU - Hozeifi, Samira

AU - Nitert, Mats J.

AU - van Pijkeren, Alienke

AU - Smit, Marieke

AU - ter Morsche, Lars

AU - Mourtzinos, Apostolos

AU - Deshpande, Vikram

AU - Taylor, Martin S.

AU - Chait, Brian T.

AU - LaCava, John

PY - 2025/2/6

Y1 - 2025/2/6

N2 - Background: Both the expression and activities of LINE-1 (L1) retrotransposons are known to occur in numerous cell-types and are implicated in pathobiological contexts such as aging-related inflammation, autoimmunity, and in cancers. L1s encode two proteins that are translated from bicistronic transcripts. The translation product of ORF1 (ORF1p) has been robustly detected by immunoassays and shotgun mass spectrometry (MS). Yet, more sensitive detection methods would enhance the use of ORF1p as a clinical biomarker. In contrast, until now, no direct evidence of endogenous L1 ORF2 translation to protein (ORF2p) has been shown. Instead, assays for ORF2p have been limited to ectopic L1 ORF over-expression contexts and to indirect detection of endogenous ORF2p enzymatic activity, such as by the sequencing of de novo genomic insertions. Immunoassays for endogenous ORF2p have been problematic, producing apparent false positives due to cross-reactivities, and shotgun MS has not yielded reliable evidence of ORF2p peptides in biological samples. Results: Here we present targeted mass spectrometry assays, selected and parallel reaction monitoring (SRM and PRM, respectively) to detect and quantify L1 ORF1p and ORF2p at their endogenous abundances. We were able to quantify ORF1p and ORF2p present in our samples down to a range in the low attomoles. Confident in our ability to affinity enrich ORF2p, we describe an interactome associated with endogenous ORF2-containing macromolecular assemblies. Conclusions: This is the first assay to demonstrate sensitive and robust quantitation of endogenous ORF2p. The ability to assay ORF2p directly and quantitatively will improve our understanding of the developmental and diseased cell states where L1 expression and its activity naturally occur. The ability to simultaneously assay endogenous L1 ORF1p and ORF2p is an important step forward for L1 analytical biochemistry. Endogenous ORF2p interactomes can now be presented with confidence that ORF2p is among the enriched proteins.

AB - Background: Both the expression and activities of LINE-1 (L1) retrotransposons are known to occur in numerous cell-types and are implicated in pathobiological contexts such as aging-related inflammation, autoimmunity, and in cancers. L1s encode two proteins that are translated from bicistronic transcripts. The translation product of ORF1 (ORF1p) has been robustly detected by immunoassays and shotgun mass spectrometry (MS). Yet, more sensitive detection methods would enhance the use of ORF1p as a clinical biomarker. In contrast, until now, no direct evidence of endogenous L1 ORF2 translation to protein (ORF2p) has been shown. Instead, assays for ORF2p have been limited to ectopic L1 ORF over-expression contexts and to indirect detection of endogenous ORF2p enzymatic activity, such as by the sequencing of de novo genomic insertions. Immunoassays for endogenous ORF2p have been problematic, producing apparent false positives due to cross-reactivities, and shotgun MS has not yielded reliable evidence of ORF2p peptides in biological samples. Results: Here we present targeted mass spectrometry assays, selected and parallel reaction monitoring (SRM and PRM, respectively) to detect and quantify L1 ORF1p and ORF2p at their endogenous abundances. We were able to quantify ORF1p and ORF2p present in our samples down to a range in the low attomoles. Confident in our ability to affinity enrich ORF2p, we describe an interactome associated with endogenous ORF2-containing macromolecular assemblies. Conclusions: This is the first assay to demonstrate sensitive and robust quantitation of endogenous ORF2p. The ability to assay ORF2p directly and quantitatively will improve our understanding of the developmental and diseased cell states where L1 expression and its activity naturally occur. The ability to simultaneously assay endogenous L1 ORF1p and ORF2p is an important step forward for L1 analytical biochemistry. Endogenous ORF2p interactomes can now be presented with confidence that ORF2p is among the enriched proteins.

KW - Cancer

KW - LINE-1

KW - Mass spectrometry

KW - PRM

KW - Retrotransposon

KW - SRM

KW - Targeted proteomics

UR - https://www.scopus.com/pages/publications/85218208302

U2 - 10.1186/s13100-024-00339-4

DO - 10.1186/s13100-024-00339-4

M3 - Article

AN - SCOPUS:85218208302

SN - 1759-8753

VL - 16

JO - Mobile dna

JF - Mobile dna

IS - 1

M1 - 3

ER -

Targeted detection of endogenous LINE-1 proteins and ORF2p interactions

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