Biologically‐coupled bisphosphonate chaperones effectively deliver molecules to the site of soft tissue‐bone healing

Kremen, Thomas J.; Shi, Brendan Y.; Wu, Shannon Y.; Sundberg, Oskar; Sriram, Varun; Kim, Won; Sheyn, Dmitriy; Lyons, Karen M.; Wang, Weiguang; McKenna, Charles E.; Nishimura, Ichiro

doi:10.1002/jor.25579

Journal Orthopaedic Research

2023

DOI: 10.1002/jor.25579

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Biologically‐coupled bisphosphonate chaperones effectively deliver molecules to the site of soft tissue‐bone healing

Thomas J. Kremen

Brendan Y. Shi

Shannon Y. Wu

et al.

Abstract: Tendon injuries are common and often treated surgically, however, current tendon repair healing results in poorly organized fibrotic tissue. While certain growth factors have been reported to improve both the strength and organization of the repaired enthesis, their clinical applicability is severely limited due to a lack of appropriate delivery strategies. In this study, we evaluated a recently developed fluorescent probe, Osteoadsorptive Fluorogenic Sentinel‐3 that is composed of a bone‐targeting bisphosphon… Show more

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2024

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Novel bisphosphonate-based cathepsin K-triggered compound targets the enthesis without impairing soft tissue-to-bone healing

Shi,

Sriram,

et al. 2024

Front. Bioeng. Biotechnol.

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Background: Osteoadsorptive fluorogenic sentinel 3 (OFS-3) is a recently described compound that contains a bone-targeting bisphosphonate (BP) and cathepsin K (Ctsk)-triggered fluorescence signal. A prior study in a murine Achilles repair model demonstrated its effectiveness at targeting the site of tendon-to-bone repair, but the intrinsic effect of this novel bisphosphonate chaperone on tendon-to-bone healing has not been previously explored. We hypothesized that application of this bisphosphonate-fluorophore cargo conjugate would not affect the biomechanical properties or histologic appearance of tendon-bone repairs.Materials and Methods: Right hindlimb Achilles tendon-to-bone repair was performed on 12-week old male mice. Animals were divided into 2 groups of 18 each: 1) Achilles repair with OFS-3 applied directly to the repair site prior to closure, and 2) Achilles repair with saline applied prior to closure. Repaired hindlimbs from 12 animals per group were harvested at 6 weeks for biomechanical analysis with a custom 3D-printed jig. At 4 and 6 weeks, repaired hindlimbs from the remaining animals were assessed histologically using H&E, immunohistochemistry (IHC) staining for the presence of Ctsk, and second harmonic generation (SHG) imaging to evaluate collagen fibers.Results: At 6 weeks, there was no significant difference in failure load, stiffness, toughness, or displacement to failure between repaired hindlimbs that received OFS-3 versus saline. There was no difference in tissue healing on H&E or Ctsk staining on immunohistochemistry between animals that received OFS-3 versus saline. Finally, second harmonic generation imaging demonstrated no difference in collagen fiber parameters between the two groups.Conclusion: OFS-3 did not significantly affect the biomechanical properties or histologic appearance of murine Achilles tendon-to-bone repairs. This study demonstrates that OFS-3 can target the site of tendon-to-bone repair without causing intrinsic negative effects on healing. Further development of this drug delivery platform to target growth factors to the site of tendon-bone repair is warranted.

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Novel bisphosphonate-based cathepsin K-triggered compound targets the enthesis without impairing soft tissue-to-bone healing

Shi,

Sriram,

et al. 2024

Front. Bioeng. Biotechnol.

Self Cite

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show abstract

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Biologically‐coupled bisphosphonate chaperones effectively deliver molecules to the site of soft tissue‐bone healing

Cited by 1 publication

References 33 publications

Novel bisphosphonate-based cathepsin K-triggered compound targets the enthesis without impairing soft tissue-to-bone healing

Novel bisphosphonate-based cathepsin K-triggered compound targets the enthesis without impairing soft tissue-to-bone healing

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