Nutrients, Vol. 18, Pages 1652: Prophylactic and Therapeutic Anti-Hyperglycemic Effects of Heat-Killed Mycobacterium aurum in STZ-Induced Diabetic Mice
Nutrients doi: 10.3390/nu18111652
Authors:
Ali Ali
Hanin-Khaula Hakam
Alaa Eter
Samer Bazzi
Amani Chahine
Charles Akle
Georges M. Bahr
Karim S. Echtay
Background/Objectives: Exploiting the metabolic properties of postbiotics is a novel strategy for managing metabolic disorders, including diabetes. Inactivated microorganisms, a major class of postbiotics, improve glycemic control in preclinical and clinical studies. Here, we examined whether heat-killed (HK) Mycobacterium aurum (M. aurum) exerts prophylactic or therapeutic anti-hyperglycemic effects in diabetic mice. Methods: Diabetes was induced in male BALB/c mice by streptozotocin (STZ; 150 mg/kg) injection. HK M. aurum (1 mg) was given orally (three prophylactic doses before STZ) or intradermally (six weekly therapeutic doses after STZ). We assessed glycemic parameters, serum C-peptide/insulin (ELISA), and tissue protein expression (Western blot). Results: Neither route altered body weight or glucose homeostasis in non-diabetic mice. In STZ-diabetic mice, oral prophylactic treatment significantly attenuated hyperglycemia (39–60% reduction weeks 5–8 post-STZ) and showed a trend toward improved serum C-peptide, but did not affect dysregulated expression of skeletal muscle (SM), hepatic, pancreatic and renal proteins involved in glucose transport (GLUT2, GLUT4, and SGLT2), glycolysis (α-LDH), mitochondrial uncoupling (UCP2 and UCP3), and antioxidant defense (CAT). Therapeutic intradermal administration significantly decreased blood glucose (~30% at week 5, ~40% at week 6) and modestly enhanced insulin secretion. Hepatic UCP2 and α-LDH and SM UCP3 protein levels were normalized toward non-diabetic levels, whereas hepatic GLUT2 and SM GLUT4 remained largely unchanged. These correlative findings suggest effects independent of insulin-dependent glucose transport, but do not demonstrate direct functional improvement in mitochondrial or redox status. Conclusions: HK M. aurum exerts partial anti-hyperglycemic effects in STZ-induced diabetic mice, but the associated protein changes require functional validation before its role as a postbiotic in β-cell dysfunction can be established.
Background/Objectives: Exploiting the metabolic properties of postbiotics is a novel strategy for managing metabolic disorders, including diabetes. Inactivated microorganisms, a major class of postbiotics, improve glycemic control in preclinical and clinical studies. Here, we examined whether heat-killed (HK) Mycobacterium aurum (M. aurum) exerts prophylactic or therapeutic anti-hyperglycemic effects in diabetic mice. Methods: Diabetes was induced in male BALB/c mice by streptozotocin (STZ; 150 mg/kg) injection. HK M. aurum (1 mg) was given orally (three prophylactic doses before STZ) or intradermally (six weekly therapeutic doses after STZ). We assessed glycemic parameters, serum C-peptide/insulin (ELISA), and tissue protein expression (Western blot). Results: Neither route altered body weight or glucose homeostasis in non-diabetic mice. In STZ-diabetic mice, oral prophylactic treatment significantly attenuated hyperglycemia (39–60% reduction weeks 5–8 post-STZ) and showed a trend toward improved serum C-peptide, but did not affect dysregulated expression of skeletal muscle (SM), hepatic, pancreatic and renal proteins involved in glucose transport (GLUT2, GLUT4, and SGLT2), glycolysis (α-LDH), mitochondrial uncoupling (UCP2 and UCP3), and antioxidant defense (CAT). Therapeutic intradermal administration significantly decreased blood glucose (~30% at week 5, ~40% at week 6) and modestly enhanced insulin secretion. Hepatic UCP2 and α-LDH and SM UCP3 protein levels were normalized toward non-diabetic levels, whereas hepatic GLUT2 and SM GLUT4 remained largely unchanged. These correlative findings suggest effects independent of insulin-dependent glucose transport, but do not demonstrate direct functional improvement in mitochondrial or redox status. Conclusions: HK M. aurum exerts partial anti-hyperglycemic effects in STZ-induced diabetic mice, but the associated protein changes require functional validation before its role as a postbiotic in β-cell dysfunction can be established. Read More