Utilizing Sphingomyelinase Sensitizing Liposomes in Imaging Intestinal Inflammation in Dextran Sulfate Sodium-Induced Murine Colitis.
Tuula Penate MedinaJie PanChristabel DamoahJana HumbertAnna-Lena KöpnickOlga WillSusanne SebensOula Peñate-MedinaPublished in: Biomedicines (2022)
Inflammatory bowel disease (IBD) is characterized by chronic inflammation in the gastrointestinal tract, resulting in severe symptoms. At the moment, the goal of medical treatments is to reduce inflammation. IBD is treated with systemic anti-inflammatory compounds, but they have serious side effects. The treatment that is most efficient and causes the fewest side effects would be the delivery of the drugs on the disease site. This study aimed to investigate the suitability of sphingomyelin (SM) containing liposomes to specifically target areas of inflammation in dextran sulfate sodium-induced murine colitis. Sphingomyelin is a substrate to the sphingomyelinase enzyme, which is only present outside cells in cell stress, like inflammation. When sphingomyelin consisting of liposomes is predisposed to the enzyme, it causes the weakening of the membrane structure. We demonstrated that SM-liposomes are efficiently taken up in intestinal macrophages, indicating their delivery potential. Furthermore, our studies showed that sphingomyelinase activity and release are increased in a dextran sulfate sodium-induced IBD mouse model. The enzyme appearance in IBD disease was also traced in intestine samples of the dextran sulfate sodium-treated mice and human tissue samples. The results from the IBD diseased animals, treated with fluorescently labeled SM-liposomes, demonstrated that the liposomes were taken up preferentially in the inflamed colon. This uptake efficiency correlated with sphingomyelinase activity.
Keyphrases
- drug delivery
- oxidative stress
- diabetic rats
- drug release
- ulcerative colitis
- high glucose
- drug induced
- endothelial cells
- mouse model
- induced apoptosis
- healthcare
- anti inflammatory
- high resolution
- type diabetes
- early onset
- single cell
- computed tomography
- metabolic syndrome
- mass spectrometry
- bone marrow
- endoplasmic reticulum stress
- pet imaging
- climate change
- induced pluripotent stem cells