Sites of Cre-recombinase activity in mouse lines targeting skeletal cells

Couasnay, Greig; Madel, Maria‐Bernadette; Lim, Joohyun; Lee, Brendan; Elefteriou, Florent

doi:10.1002/jbmr.4415

Cited by 29 publications

(11 citation statements)

References 284 publications

(576 reference statements)

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“…Another plausible explanation is that the Cre-Col II system affected brain SIRT1, as effects similar to those we see in learning, memory and anxiety were previously reported in brain-specific SIRT1 knockout mice (BSKO) (22,23), this is in spite of the fact that the driver that we used for Cre was Col type II and not nestin (34). Indeed, a recent review summarized the off-target effect of many skeletal Cre lines, showing that most Cre lines show some level of unintended activity in other tissues (35), thus the notion that Cre lines are specific to a particular cell or tissue has been misleading. While collagen type II is usually considered a hallmark for chondrogenic differentiation, several publications on mouse embryogenesis (9,(15)(16)(17), as well as a study on the Cre Col II system (36) showed transient expression of Col type II mRNAs in a number of non-chondrogenic tissues such as notochord, sclerotome, pre-chondrogenic mesenchyme, heart, brain and eye.…”

Section: Discussionsupporting

confidence: 59%

Anxiety and Cognition in Cre- Collagen Type II Sirt1 K/O Male Mice

Shtaif

Hornfeld²,

Yackobovitch‐Gavan

et al. 2021

Front. Endocrinol.

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IntroductionUsing transgenic collagen type II-specific Sirt1 knockout (CKO) mice we studied the role of Sirt1 in nutritional induced catch up growth (CUG) and we found that these mice have a less organized growth plate and reduced efficiency of CUG. In addition, we noted that they weigh more than control (CTL) mice. Studying the reason for the increased weigh, we found differences in activity and brain function.MethodsSeveral tests for behavior and activity were used: open field; elevated plus maze, Morris water maze, and home cage running wheels. The level of Glu- osteocalcin, known to connect bone and brain function, was measured by Elisa; brain Sirt1 was analyzed by western blot.ResultsWe found that CKO mice had increased anxiety, with less spatial memory, learning capabilities and reduced activity in their home cages. No significant differences were found between CKO and CTL mice in Glu- osteocalcin levels; nor in the level of brain SIRT1.Discussion/ConclusionUsing transgenic collagen type II-specific Sirt1 knockout (CKO) mice we found a close connection between linear growth and brain function. Using a collagen type II derived system we affected a central regulatory mechanism leading to hypo activity, increased anxiety, and slower learning, without affecting circadian period. As children with idiopathic short stature are more likely to have lower IQ, with substantial deficits in working memory than healthy controls, the results of the current study suggest that SIRT1 may be the underlying factor connecting growth and brain function.

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Section: Discussionsupporting

confidence: 59%

Anxiety and Cognition in Cre- Collagen Type II Sirt1 K/O Male Mice

Shtaif

Hornfeld²,

Yackobovitch‐Gavan

et al. 2021

Front. Endocrinol.

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“…To further explore potential effects on osteoclast differentiation, ex vivo osteoclastogenesis assays were performed. Bone marrow macrophages were collected from Phlpp1 cKOLysM females and their sex-matched littermate controls and cultured in the presence of RANKL and M-CSF as previously described [13,19,20]. Diminished expres sion of Phlpp1 was confirmed of ex vivo osteoclasts derived from Phlpp1 cKOLysM mice (Figure 3A,E).…”

Section: Conditional Deletion Of Phlpp1 Enhances Osteoclastogenesismentioning

confidence: 87%

Myeloid Lineage Ablation of Phlpp1 Regulates M-CSF Signaling and Tempers Bone Resorption in Female Mice

Karkache

Damodaran

Molstad

et al. 2021

IJMS

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Prior work demonstrated that Phlpp1 deficiency alters trabecular bone mass and enhances M-CSF responsiveness, but the cell types and requirement of Phlpp1 for this effect were unclear. To understand the function of Phlpp1 within myeloid lineage cells, we crossed Phlpp1 floxed mice with mice harboring LysM-Cre. Micro-computed tomography of the distal femur of 12-week-old mice revealed a 30% increase in bone volume per total volume of Phlpp1 female conditional knockouts, but we did not observe significant changes within male Phlpp1 cKOLysM mice. Bone histomorphmetry of the proximal tibia further revealed that Phlpp1 cKOLysM females exhibited elevated osteoclast numbers, but conversely had reduced levels of serum markers of bone resorption as compared to littermate controls. Osteoblast number and serum markers of bone formation were unchanged. In vitro assays confirmed that Phlpp1 ablation enhanced osteoclast number and area, but limited bone resorption. Additionally, reconstitution with exogenous Phlpp1 suppressed osteoclast numbers. Dose response assays demonstrated that Phlpp1−/− cells are more responsive to M-CSF, but reconstitution with Phlpp1 abrogated this effect. Furthermore, small molecule-mediated Phlpp inhibition enhanced osteoclast numbers and size. Enhanced phosphorylation of Phlpp substrates—including Akt, ERK1/2, and PKCζ—accompanied these observations. In contrast, actin cytoskeleton disruption occurred within Phlpp inhibitor treated osteoclasts. Moreover, Phlpp inhibition reduced resorption of cells cultured on bovine bone slices in vitro. Our results demonstrate that Phlpp1 deficiency within myeloid lineage cells enhances bone mass by limiting bone resorption while leaving osteoclast numbers intact; moreover, we show that Phlpp1 represses osteoclastogenesis and controls responses to M-CSF.

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“…Nevertheless, the role of miR-322 and miR-503 expression in cartilage for the chondrocyte-dependent formation of osteoblasts and osteoclasts has not been described. Col2a1-Cre mediated recombination results mainly in a deletion of the cluster in chondrocytes, but also in a subpopulation of osteo-chondroprogenitor cells 28 , 29 , in osteoblast-derived from hypertrophic chondrocytes 2 , 3 or skeletal progenitor cells originating from dedifferentiated hypertrophic chondrocytes 4 . Interestingly, we could confirm that a deletion of the cluster is detected in bone and that its expression is reduced in isolated osteoblasts (see Supplementary Fig.…”

Section: Discussionmentioning

confidence: 99%

Ablation of the miRNA cluster 24 in cartilage and osteoblasts impairs bone remodeling

Georgieva

Bluhm

Probst

et al. 2022

Sci Rep

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MicroRNAs (miRNAs) post-transcriptionally regulate cartilage and bone development and function, however, only few miRNAs have been described to play a role for cartilage to bone transition in vivo. Previously, we showed that cartilage-specific deletion of the Mirc24 cluster in newborn male mice leads to impaired growth plate cartilage development due to increased RAF/MEK/ERK signaling and affects the stability of the cartilage extracellular matrix on account of decreased SOX6 and SOX9 and increased MMP13 levels. Here, we studied how Mirc24 cluster inactivation in cartilage and osteoblasts leads to an increased bone density associated with defects in collagen remodeling in trabecular bone. No changes in osteoblast distribution were observed, whereas the number of osteoclasts was reduced and TRAP activity in osteoclasts decreased. Surprisingly, an increased level of cluster-encoded miR-322 or miR-503 raises Rankl gene expression and inactivation of the cluster in chondrocytes reduces Rankl expression. These results suggest that the Mirc24 cluster regulates Rankl expression in chondrocytes at the chondro-osseous border, where the cluster is mainly expressed to modulate osteoclast formation, bone remodeling and bone integrity.

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Sites of Cre-recombinase activity in mouse lines targeting skeletal cells

Cited by 29 publications

References 284 publications

Anxiety and Cognition in Cre- Collagen Type II Sirt1 K/O Male Mice

Anxiety and Cognition in Cre- Collagen Type II Sirt1 K/O Male Mice

Myeloid Lineage Ablation of Phlpp1 Regulates M-CSF Signaling and Tempers Bone Resorption in Female Mice

Ablation of the miRNA cluster 24 in cartilage and osteoblasts impairs bone remodeling

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