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Mast Cell Deficiency in Mice Attenuates Insulin Phenolic Preservative-Induced Inflammation.

Shereen KesserwanMarianna SadagurskiLi MaoUlrike Klueh
Published in: Biomedicines (2023)
One major obstacle that limits the lifespan of insulin infusion pumps is surmounting the tissue site reaction at the device implantation site. All commercial insulin formulations contain insulin phenolic preservatives (IPPs) designed to ensure insulin protein stability and prolong shelf-life. However, our laboratory demonstrated that these preservatives are cytotoxic and induce inflammation. Mature mast cells (MCs) reside in cutaneous tissue and are one of the first responders to an epidermal breach. Upon activation, MCs release proinflammatory and immunomodulatory prepacked mediators that exacerbate these inflammatory reactions. Thus, we hypothesized that once the epidermis is breached, cutaneous MCs are triggered inciting the inflammatory response to IPP-induced inflammation. This hypothesis was pursued utilizing our modified in vivo mouse air pouch model, including a c- kit dependent ( C57BL/6J-kit W-sh/W-sh ) and a c- kit independent ( Cpa3-Cre ; Mcl-1 fl/fl ) MC-deficient mouse model. Leukocytes were quantified in the mouse air pouch lavage fluid following flow cytometry analysis for IPP infusion under three different states, insulin-containing phenolic preservatives (Humalog ® ), insulin preservatives alone, and normal saline as a control. The air pouch wall was assessed using histopathological evaluations. Flow cytometry analysis demonstrated a statistically significant difference in inflammatory cell recruitment for both MC-deficient mouse models when compared to the control strain including infused control saline. Significantly less inflammation was observed at the site of infusion for the MC-deficient strains compared to the control strain. Overall, concordant results were obtained in both mouse types, C57Bl6-kit W-sh/W-sh and Cpa3-Cre ; Mcl-1 fl/fl . These findings in multiple model systems support the conclusion that MCs have important or possible unique roles in IPP-induced inflammation.
Keyphrases
  • type diabetes
  • oxidative stress
  • flow cytometry
  • diabetic rats
  • glycemic control
  • mouse model
  • high glucose
  • drug induced
  • bone marrow
  • metabolic syndrome
  • small molecule
  • peripheral blood
  • weight loss