Inflammatory bowel disease (IBD), including Crohn’s disease and ulcerative colitis, is an immune disorder that causes chronic inflammation of the gastrointestinal tract. There is an unmet need for effective pharmacological treatments as current standard therapies including aspirin derivatives and corticosteroids often fail to control the disease. For a significant portion, 30% or more, of patients, surgical removal of the affected bowel is required at some point in their disease course to address complications of bleeding, infections with sepsis, toxic megacolon among many others. There are also associated severe complications involving many other organs due to the underlying immune mediated reactions. In this study, PEGylated Serp-1 (PEGSerp-1) a modified Myxomavirus-derived serine protease inhibitor that binds and inhibits serine proteases in the coagulation and complement cascades, is evaluated in a pre-clinical model of IBD. Experimental colitis was induced in male C57BL/6J mice by oral administration of dextran sulfate sodium (DSS). In mice with acute colitis induced by exposure to 5% DSS for 6 days, daily treatment with PEGSerp-1 significantly improved survival. When initiation of treatment was delayed by 7 days in this acute colitis model, PEGSerp-1 treatment improved markers of disease severity and significantly reduced inflammation in the colon. PEGSerp-1 is an effective treatment of acute DSS-induced colitis when used as a preventative or delayed treatment.
Insect pheromones are crucial for survival and reproduction because they influence insect behavior, communication, and interactions within and outside the colony. Honey bees (Apis mellifera) have one of the most complex pheromonal communication systems. One pheromone, known as Queen Mandibular Pheromone (QMP), is released by the queen bee to regulate physiology, behavior, and gene expression in the female worker caste. The pheromone acts as a signal of queen presence that suppresses worker reproduction. In the absence of reproduction, young workers focus on taking care of the queen and larvae, known as nurse tasks, while older workers forage. In nurse bees, QMP has fundamental physiological impacts, including increasing abdominal lipid stores and increasing the protein content of hypopharyngeal glands (HPG). The HPG are worker-specific glands that can synthesize royal jelly used in colony nourishment. In workers, larger HPG signifies the ability to secrete royal jelly, while shrunken glands are characteristic of foragers that do not make jelly. While it is known that QMP increases abdominal lipid stores, the underlying mechanism is unclear: Does the pheromone simply make workers consume more pollen which provides lipids and protein, or does QMP also increase lipogenesis? In this study, I measured abdominal lipogenesis as fatty acid synthase (FAS) activity and monitored abdominal protein content and HPG size in caged, nurse-aged worker bees. In cages, workers were exposed to QMP or not, and they were provided with a lipid less diet in a full factorial design experiment. I found that QMP did not influence abdominal FAS activity or protein, but significantly increased HPG size. The data also revealed a significant positive correlation between abdominal protein and HPG size. My results do not support the idea that QMP modulates lipogenesis in worker bees, but my data can be interpreted to reflect that QMP mobilizes abdominal protein for the production of jelly in the HPG. This finding is in line with a previous study revealing a role of honey bee Brood Pheromone in mobilization of a major protein used in jelly production. Overall, my results support a fundamental role of QMP in worker metabolic processes associated with colony nourishment.