TNAP-positive matrix vesicles are enriched in Annexin II and tetraspanins

Publication date

2026-05-01

Authors

Anghileri, Genevieve
de Voogt, Willemijn S.
Hyden-Shepherd, Toby
Murdoch, Timothy J.
Mebarek, Saida
Vader, PieterORCID 0000-0002-7059-8920ISNI 0000000396341338
Martín-Fabiani, Ignacio
Davies, Owen G.

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Document Type

Article

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Abstract

Matrix vesicles (MVs) provide a specialised niche for the nucleation of biological apatite. While the mineralisation enabling enzyme tissue non-specific alkaline phosphatase (TNAP) is commonly applied as a marker, its organisation and relative abundance on MVs remains incompletely defined. The relationship between MVs and unbound exosomes/microvesicles recovered from culture media (mEVs) also remains a point of contention. We show that MVs expressed markers of ESCRT (endosomal sorting complexes required for transport) biogenesis common to exosomes/microvesicles, including Alix, TSG101 and CD63. TEM and AFM analysis revealed heterogeneity in the MV population, with pro-mineralising electron-dense and non-mineralising MVs observed. Few MVs (< 7%) expressed TNAP independently of CD63. Applying a bespoke immuno-isolation protocol, we showed that TNAP was only expressed in 36% (MV) and 10% (mEV) of the total vesicle population. Super-resolution microscopy revealed the majority of TNAP+ MVs (mean of 82.3%) and mEVs (mean of 72.7%) localised with the calcium channelling protein annexin II. Annexin V (alternative calcium channel) was not upregulated in the TNAP+ fraction. Both MVs and mEVs were capable of mineral nucleation, though only MVs isolated at earlier time points (days 7 and 9) appeared capable of generating hydroxyapatite-like material. In conclusion, we identify for the first time that mineralisation-competent TNAP+ MVs are enriched in annexin II and express common markers of endosomal biogenesis. We show that a TNAP+/annexin II+ population is also present in mEV fractions but only quantifiable using high-resolution techniques. These results provide new insights into the composition of pro-mineralising vesicles and give further credence to the hypothesis that MVs may represent anchored exosomes.

Keywords

Alkaline phosphatase, Exosome, Extracellular vesicle, Matrix, Mineralisation, Endocrinology, Diabetes and Metabolism, Histology, Physiology

Citation

Anghileri, G, de Voogt, W S, Hyden-Shepherd, T, Murdoch, T J, Mebarek, S, Vader, P, Martín-Fabiani, I & Davies, O G 2026, 'TNAP-positive matrix vesicles are enriched in Annexin II and tetraspanins', Bone, vol. 206, 117838. https://doi.org/10.1016/j.bone.2026.117838