Table 3.
H2S regulates glucose uptake, glycogen storage, gluconeogenesis and mitochondrial function in liver.
| Action | Cells/Model | H2S gas/donor application (concentration) | Effects | Refs. |
|---|---|---|---|---|
| Glucose uptake | ||||
| In vitro study | HepG2 cells/primary mouse hepatocytes | NaHS (10, 30 and 100 μM)/– | Inhibited | [32] |
| Glycogen storage | ||||
| In vitro study | HepG2 cells | NaHS (10, 30 and 100 μM) | Inhibited | [32] |
| In vivo study | Liver from mice under nonfastingor 6-h fasting condition | – | Inhibited | [32] |
| Gluconeogenesis | ||||
| In vitro study | HepG2 cells/primary mouse hepatocytes | NaHS (10, 30 and100 μM)/– | Promoted | [32] |
| Primary mouse hepatocytes | NaHS (30 μM) | Promoted | [33] | |
| HepG2 cells/primary mouse hepatocytes | NaHS (50 μM)/– | Promoted | [34] | |
| HepG2 cells/primary mouse hepatocytes | NaHS (100 μM)/– | Inhibited | [35] | |
| In vivo study | Pyruvate tolerance test on overnight-fasted mice | NaHS (39 and 63 μM/kg) | Promoted | [33] |
| Pyruvate tolerance test on high fat diet-fed mice | NaHS (50 μM/kg/day) | Inhibited | [35] | |
| Mitochondrial function | ||||
| Biogenesis | Primary moue hepatocytes | NaHS (30 μM) | Promoted | [38] |
| Bioenergetics | HepG2 cells | NaHS (0.01 and 0.1 μM) | Promoted | [39] |