Tamoxifen-independent Cre-activity in SMMHC-CreERT2 mice

L. B. Steffensen*, J. Stubbe, M. Overgaard, J. H. Larsen

*Corresponding author for this work

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Abstract

BACKGROUND AND AIMS: Recent technological advances have established vascular smooth muscle cells (SMCs) as central players in atherosclerosis. Increasingly complex genetic mouse models have unveiled that 30-70% of cells in experimentally induced atherosclerotic lesions derive from a handful of medial SMCs, and that these can adopt a broad range of plaque cell phenotypes. Most of these models are based on the SMMHC-CreER T2 mouse line as Cre-driver. Importantly, Cre-activation can be controlled in time (by administration of tamoxifen, TAM), which is critical to avoid unwanted effects of premature recombination events. The aim of this study was to scrutinize an unexpected observation of TAM-independent Cre-activity in this mouse line.

METHODS: Cre-activity was assessed by PCR in tissues from SMMHC-CreER T2 mice crossed with mice homozygous for loxP-flanked (floxed) exon 4 of Ccn2 (our gene-of-interest), and Ccn2 protein was measured in aortas by targeted mass spectrometry.

RESULTS: We observed spontaneous near-complete excision of floxed Ccn2 in aortas from adult mice that were not treated with TAM. As a result, Ccn2 protein was significantly reduced in aortas from these mice, but not to the same extent as TAM-treated littermates. Remarkably, most of the excision was completed in 4-week-old mice. Excision was Cre-dependent, as knockout bands were negligible in heart and liver (dominated by non-SMCs) of these mice, and undetectable in the aorta in the absence of Cre.

CONCLUSION: Our observations warrant caution, and we advocate inclusion of appropriate controls ( i.e., TAM-untreated mice) in future studies.

Original languageEnglish
JournalAtherosclerosis Plus
Volume48
Pages (from-to)8-11
Number of pages4
ISSN2667-0909
DOIs
Publication statusPublished - Apr 2022

Bibliographical note

Publisher Copyright:
© 2022 The Author(s)

Keywords

  • Atherosclerosis
  • Cre-loxP
  • Mouse
  • Smooth muscle cell

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