Optical molecular imaging of lysyl oxidase activity– detection of active fibrogenesis in human lung tissue

Aslam, Tashfeen; Miele, Amy; Chankeshwara, Sunay V.; Megía Fernández, Alicia; Michels, Chesney; Akram, Ahsan R.; McDonald, Neil; Hirani, Nik; Haslett, Chris; Bradley, Mark; Dhaliwal, Kevin

doi:10.1039/c5sc01258a

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Identificadores

URI: https://hdl.handle.net/10481/87331

DOI: 10.1039/c5sc01258a

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Editorial

Royal Society of Chemistry

Materia

LOX

Optical imaging

Fluorescence

Fecha

2015

Referencia bibliográfica

Chem. Sci., 2015, 6, 4946–4953

Patrocinador

The authors would like to thank the MRC, under the Developmental Pathway Funding Scheme (grant number RA2159). A.M-F. acknowledges Fundacion Ramon Areces-Postdoctoral Research Fellowship Program for Financial support. The research leading to these results has received funding from the European Union Seventh Framework and EPSRC (EP/ K03197X).

Resumen

Aberrant fibrogenesis is a feature of many diseases in multiple organ systems. The lysyl oxidase family of enzymes are central to tissue homeostasis and elevated lysyl oxidase activity is implicated in fibroproliferation as well as in cancer stroma. We have synthesised a novel fluorogenic reporter for monitoring lysyl oxidase activity that generates a 3–5 fold increase in fluorescence following probe activation in ventilating fibrotic ex vivo asinine lung and ex vivo human lung tissue. The probe termed “oLOX” can provide real-time measurement of lysyl oxidase activity in a number of biological settings and is tractable from an in vitro setting to man

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