Tracking mesenchymal stem cell contributions to regeneration in an immunocompetent cartilage regeneration model
Daniela Zwolanek, … , Thomas Rülicke, Reinhold G. Erben
Daniela Zwolanek, … , Thomas Rülicke, Reinhold G. Erben
Published October 19, 2017
Citation Information: JCI Insight. 2017;2(20):e87322. https://doi.org/10.1172/jci.insight.87322.
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Resource and Technical Advance Stem cells Transplantation

Tracking mesenchymal stem cell contributions to regeneration in an immunocompetent cartilage regeneration model

Abstract

It is currently controversially discussed whether mesenchymal stem cells (MSC) facilitate cartilage regeneration in vivo by a progenitor- or a nonprogenitor-mediated mechanism. Here, we describe a potentially novel unbiased in vivo cell tracking system based on transgenic donor and corresponding immunocompetent marker–tolerant recipient mouse and rat lines in inbred genetic backgrounds. Tolerance of recipients was achieved by transgenic expression of an immunologically neutral but physicochemically distinguishable variant of the marker human placental alkaline phosphatase (ALPP). In this dual transgenic system, donor lines ubiquitously express WT, heat-resistant ALPP protein, whereas recipient lines express a heat-labile ALPP mutant (ALPPE451G) resulting from a single amino acid substitution. Tolerance of recipient lines to ALPP-expressing cells and tissues was verified by skin transplantation. Using this model, we show that intraarticularly injected MSC contribute to regeneration of articular cartilage in full-thickness cartilage defects mainly via a nonprogenitor-mediated mechanism.

Authors

Daniela Zwolanek, María Satué, Verena Proell, José R. Godoy, Kathrin I. Odörfer, Magdalena Flicker, Sigrid C. Hoffmann, Thomas Rülicke, Reinhold G. Erben

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Figure 1

Structure of human placental alkaline phosphatase (ALPP) transgenic constructs and transgene expression in transgenic mouse and rat lines.

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Structure of human placental alkaline phosphatase (ALPP) transgenic cons...
(A) Structure of transgenic constructs for pronuclear injection, including relevant endonuclease restriction sites and primer positions. A point mutation in codon 451 of the ALPP gene introduced by site-directed mutagenesis results in an E451G substitution, giving rise to the heat-labile ALPPE451G (ALPPm) derivative. (B) Variation in amino acid sequence of heat-stable WT ALPP and heat-labile ALPPm. (C) Transcription of full-length WT and mutated ALPP was verified by RT-PCR on lung cDNA with amplicons spanning the whole transcript, exemplarily shown for the mouse model. n ≥ 7 per genotype. (D and E) Protein expression was examined by immunoblotting of mouse lung (D, n = 4 per genotype) and rat kidney tissue (E, n = 4 per genotype), showing high ALPP expression in ALPP-transgenic donor lines but no ALPP/ALPPm protein expression in ALPPm-transgenic and WT mice. GAPDH was used as loading control.