Precision Delivery of Human Bone Marrow-Derived Mesenchymal Stem Cells Into the Pancreas Via Intra-arterial Injection Prevents the Onset of Diabetes.
Rosita PrimaveraShobha RegmiReza YaraniSteven LevitteJing WangAbantika GangulyShashank ChettyMichele GuindaniCamillo RicordiEverett MeyerAvnesh Sinh ThakorPublished in: Stem cells translational medicine (2024)
Mesenchymal stem cells (MSCs) are a promising therapy to potentially treat diabetes given their potent anti-inflammatory and immune-modulatory properties. While these regenerative cells have shown considerable promise in cell culture, their clinical translation has been challenging. In part, this can be attributed to these cells not reaching the pancreas to exert their regenerative effects following conventional intravenous (IV) injection, with the majority of cells being trapped in the lungs in the pulmonary first-pass effect. In the present study, we will therefore examine whether direct delivery of MSCs to the pancreas via an intra-arterial (IA) injection can improve their therapeutic efficacy. Using a mouse model, in which repetitive low doses of STZ induced a gentle, but progressive, hyperglycemia, we tested bone marrow-derived MSCs (BM-MSCs) which we have shown are enriched with pro-angiogenic and immunomodulatory factors. In cell culture studies, BM-MSCs were shown to preserve islet viability and function following exposure to proinflammatory cytokines (IFN-γ, IL-1β, and TNF-α) through an increase in pAkt. When tested in our animal model, mice receiving IV BM-MSCs were not able to mitigate the effects of STZ, however those which received the same dose and batch of cells via IA injection were able to maintain basal and dynamic glycemic control, to similar levels as seen in healthy control animals, over 10 days. This study shows the importance of considering precision delivery approaches to ensure cell-based therapies reach their intended targets to enable them to exert their therapeutic effects.
Keyphrases
- mesenchymal stem cells
- umbilical cord
- bone marrow
- induced apoptosis
- glycemic control
- cell therapy
- type diabetes
- cell cycle arrest
- anti inflammatory
- stem cells
- mouse model
- diabetic rats
- cardiovascular disease
- oxidative stress
- ultrasound guided
- cell death
- rheumatoid arthritis
- immune response
- adipose tissue
- skeletal muscle
- low dose
- deep learning
- dendritic cells
- blood glucose