Tubulobulbar complexes are actin filament-rich plasma membrane protrusions that form at intercellular junctions in the seminiferous epithelium of the mammalian testis. They are proposed to internalize intact junctions during sperm release and during the translocation of spermatocytes through basal junction complexes between neighboring Sertoli cells. Tubulobulbar complexes morphologically resemble podosomes found at cell/substrate attachments in other systems. In this study we probe apical tubulobulbar complexes in fixed epithelial fragments and fixed frozen sections of rat testis for two key actin-related components found at podosomes, and for the endocytosis-related protein clathrin. N-WASP and cortactin, two regulators of actin network assembly known to be components of podosomes, are concentrated at tubulobulbar complexes. Clathrin-positive structures occur in Sertoli cell regions containing tubulobulbar complexes when analyzed by immunofluorescence microscopy and occur at the ends of the complexes when evaluated by immunoelectron microscopy. Our results are consistent with the conclusion that tubulobulbar complexes are podosome-like structures. We propose that the formation of tubulobulbar complexes may be clathrin initiated and that their growth is due to the dendritic assembly of a membrane-related actin network.
Kallikrein‐related peptidases, in particular KLK4, 5, 6 and 7 (4–7), often have elevated expression levels in ovarian cancer. In OV‐MZ‐6 ovarian cancer cells, combined expression of KLK4–7 reduces cell adhesion and increases cell invasion and resistance to paclitaxel. The present work investigates how KLK4–7 shape the secreted proteome (“secretome”) and proteolytic profile (“degradome”) of ovarian cancer cells. The secretome comparison consistently identified >900 proteins in three replicate analyses. Expression of KLK4–7 predominantly affected the abundance of proteins involved in cell–cell communication. Among others, this includes increased levels of transforming growth factor β‐1 (TGFβ‐1). KLK4–7 co‐transfected OV‐MZ‐6 cells share prominent features of elevated TGFβ‐1 signaling, including increased abundance of neural cell adhesion molecule L1 (L1CAM). Augmented levels of TGFβ‐1 and L1CAM upon expression of KLK4–7 were corroborated in vivo by an ovarian cancer xenograft model. The degradomic analysis showed that KLK4–7 expression mostly affected cleavage sites C‐terminal to arginine, corresponding to the preference of kallikreins 4, 5 and 6. Putative kallikrein substrates include chemokines, such as growth differentiation factor 15 (GDF 15) and macrophage migration inhibitory factor (MIF). Proteolytic maturation of TGFβ‐1 was also elevated. KLK4–7 have a pronounced, yet non‐degrading impact on the secreted proteome, with a strong association between these proteases and TGFβ‐1 signaling in tumor biology.
The results show that different processing procedures do not impede proteomic analysis as a robust and powerful approach for the identification of protein determinants and markers of disease processes and highlights the general robustness of FFPE-tissue based proteomics.
Proteolysis shapes proteomes by protein degradation or restricted proteolysis, which generates stable cleavage products. Proteolytic (in-)activation of enzymes and cytokines is an essential aspect of the functional proteome status. Proteome-wide identification and quantification of proteolytic processing is accessible by complementary techniques for the focused analysis of protein termini. These innovative strategies are now widely applied and have transformed protease research. Pioneering studies portrayed apoptotic and caspase-dependent cleavage events. Protease-centric investigations focused predominantly on matrix metalloproteinases (MMPs), granzymes and aspartyl and cysteine cathepsins. The first in vivo degradomic studies were performed with mice lacking either cysteine cathepsins or matrix metalloproteinases. Process-centric degradomic analyses investigated infectious processes and mitochondrial import. Peptidomic analyses yielded disease biomarkers representing cleavage fragments from bodily fluids. The diversity of degradomic endeavors illustrates the importance of portraying proteolytic processing in health and disease. The present review provides an overview of the current status of degradomic studies.
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