A Unique C‐terminal Domain Allows Retention of Matrix Metalloproteinase‐27 in the Endoplasmic Reticulum

Matrix metalloproteinase‐27 (MMP‐27) is poorly characterized. Sequence comparison suggests that a C‐terminal extension (CTE) includes a potential transmembrane domain as in some membrane‐type (MT)‐MMPs. Having noticed that MMP‐27 was barely secreted, we investigated its subcellular localization and addressed CTE contribution for MMP‐27 retention. Intracellular MMP‐27 was sensitive to endoglycosidase H. Subcellular fractionation and confocal microscopy evidenced retention of endogenous MMP‐27 or recombinant rMMP‐27 in the endoplasmic reticulum (ER) with locked exit across the intermediate compartment (ERGIC). Conversely, truncated rMMP‐27 without CTE accessed downstream secretory compartments (ERGIC and Golgi) and was constitutively secreted. CTE addition to rMMP‐10 (a secreted MMP) caused ER retention and blocked secretion. Addition of a PKA target sequence to the cytosolic C‐terminus of transmembrane MT1‐MMP/MMP‐14 led to effective phosphorylation upon forskolin stimulation, but not for MMP‐27, excluding transmembrane anchorage. Moreover, MMP‐27 was protected from digestion by proteinase K. Finally, MT1‐MMP/MMP‐14 but neither endogenous nor recombinant MMP‐27 partitioned in the detergent phase after Triton X‐114 extraction, indicating that MMP‐27 is not an integral membrane protein. In conclusion, MMP‐27 is efficiently retained within the ER due to its unique CTE, which does not lead to stable membrane insertion. This could represent a novel ER retention system.