VAMP7 knockdown in secretory granules impairs CCL2 secretion in mast cells.

Mast cells (MCs) possess numerous potent inflammatory mediators and undergo differential regulation in response to antigen (Ag) stimulation. Among the regulatory systems governing secretory responses, soluble N-ethylmaleimide-sensitive factor attachment protein receptors (SNAREs) play a pivotal role in facilitating granule-plasma membrane fusion and subsequent secretion. Our previous investigation documented the involvement of vesicle-associated membrane protein 3 (VAMP3) in regulating cytokine secretions in RBL-2H3 cells, a model for MC IgE-mediated responses. In addition to VAMP3, VAMP7 is expressed in MCs, but its functional role remains elusive. The present study seeks to explore VAMP7-specific regulatory mechanisms in MCs, shedding light on one of the mechanisms governing heterogeneous secretory responses in these cells. Murine bone marrow-derived mast cells (BMMCs) were examined to analyze the subcellular distribution of inflammatory mediators, specifically TNFα, CCL2, and histamine, and VAMPs (i.e., VAMP3, VAMP7, and VAMP8). Immunocytochemistry and the transient expression of fluorescent protein-conjugated target proteins were used to discern the distribution of various inflammatory mediators and VAMP7 through confocal laser scanning microscopy. Each inflammatory mediator (TNFα, CCL2, and histamine) was found in secretory granules of different sizes within BMMCs. VAMP7 exhibited a distinct distribution compared to VAMP3 in these granules. Notably, an overlapping distribution was observed between VAMP7 and CCL2, but not between VAMP7 and TNFα or VAMP7 and histamine. This suggests that CCL2 resides within VAMP7-expressing granules and is subject to VAMP7-dependent secretory regulation. Consistently, BMMCs with VAMP7 knockdown showed markedly reduced CCL2 secretion after Ag stimulation. These observations underscore the heterogeneity of MC secretory responses and unveil a novel VAMP7-dependent CCL2 secretion mechanism within MCs. This discovery might pave the way for the development of more precise therapeutic strategies to modulate MC secretion in allergic conditions.

Easy detection of hormone secretion from LßT2 cells by using Gaussia luciferase.

Reproduction is regulated by gonadotropins secreted from gonadotrophs. The production and secretion of gonadotropins are mainly regulated by gonadotropin-releasing hormone (GnRH). Agonists or antagonists that influence GnRH action on gonadotrophs are important to regulate reproduction; however, these factors have not been fully characterized due to the lack of simple and easy-to-use techniques to detect gonadotropin secretion from gonadotropin-producing cells. In the present study, we found that Gaussia luciferase (Gluc), which was expressed in LßT2 cells, can be secreted like a luteinizing-hormone (LH) upon stimulation with GnRH. The Gluc secreted into the medium was easily monitored as luminescence signals. The detection range of the GnRH-induced Gluc activity was comparable to that of the enzyme-linked immunosorbent assay for LH. In addition, when the Gluc was expressed in AtT20 cells, which produce adrenocorticotropic hormone (ACTH), the Gluc activity in the medium increased in parallel with the ACTH secretion upon stimulation with corticotropin-releasing hormone. Thus, the Gluc assay in the present study can be easily used for high-throughput screening of factors that influence LH or ACTH secretion from LßT2 or AtT20 cells, respectively.