MOTS-c modulates pancreatic islet function in rats and pigs in vitro
Type
Journal article
Language
English
Date issued
2025
Faculty
Wydział Medycyny Weterynaryjnej i Nauk o Zwierzętach
Journal
Histochemistry and Cell Biology
ISSN
0948-6143
Volume
163
Number
1
Pages from-to
art. 64
Abstract (EN)
MOTS-c is a promising regulator of metabolism and energy homeostasis. While its effects have been studied in cell lines,
our team aimed to investigate its influence on more complex structures—specifically, isolated pancreatic islets. We used two
animal models: the rat, which is commonly studied, and the pig, which shares greater physiological similarities with humans.
This study assessed the expression and secretion of insulin and glucagon, the expression of their receptors, cell viability, and
cell death following MOTS-c treatment of the islets. Additionally, we examined how MOTS-c secretion is affected by different
incubation media, such as the presence of free fatty acids, pancreatic hormones, and different glucose concentrations. The
results indicate that MOTS-c impacts pancreatic islet physiology by, for example, reducing insulin and glucagon secretion
and enhancing cell viability. Notably, the effects differed between the two species, which may be attributed to anatomical
differences in their pancreatic islets or structural variations in rat and pig MOTS-c. These facts may lead to the conclusion
that if MOTS-c may be helpful in human medicine, the pig model should be considered another valuable choice.
our team aimed to investigate its influence on more complex structures—specifically, isolated pancreatic islets. We used two
animal models: the rat, which is commonly studied, and the pig, which shares greater physiological similarities with humans.
This study assessed the expression and secretion of insulin and glucagon, the expression of their receptors, cell viability, and
cell death following MOTS-c treatment of the islets. Additionally, we examined how MOTS-c secretion is affected by different
incubation media, such as the presence of free fatty acids, pancreatic hormones, and different glucose concentrations. The
results indicate that MOTS-c impacts pancreatic islet physiology by, for example, reducing insulin and glucagon secretion
and enhancing cell viability. Notably, the effects differed between the two species, which may be attributed to anatomical
differences in their pancreatic islets or structural variations in rat and pig MOTS-c. These facts may lead to the conclusion
that if MOTS-c may be helpful in human medicine, the pig model should be considered another valuable choice.
Keywords (EN)
License
CC-BY - Attribution
CC-BY - Attribution Open access date
June 6, 2025