Therapeutic effect of allicin in a mouse model of intracerebral hemorrhage.

Natural compounds with sulfur moiety produce various biological actions that may be beneficial for the therapies of several devastative disorders of the central nervous system. Here we investigated potential therapeutic effect of allicin, an organosulfur compound derived from garlic, in a mouse model of intracerebral hemorrhage (ICH) based on intrastriatal collagenase injection. Daily intraperitoneal administration of allicin (50 mg/kg) from 3 h after induction of ICH afforded neuroprotective effects, as evidenced by the increase of surviving neurons in the hematoma, reduction of axonal transport impairment, and prevention of axon tract injury. In addition, allicin inhibited accumulation of activated microglia/macrophages around the hematoma and infiltration of neutrophils within the hematoma. Allicin also suppressed ICH-induced mRNA upregulation of pro-inflammatory factors such as interleukin 6 and C-X-C motif ligand 2 in the brain, suggesting its anti-inflammatory effect. Moreover, ICH-induced increase of malondialdehyde as well as decrease of total glutathione in the brain was attenuated by allicin. Finally, allicin-treated mice showed better recovery of sensorimotor functions after ICH than vehicle-treated mice. These results indicate that allicin produces a therapeutic effect on ICH pathology via alleviation of neuronal damage, inflammatory responses and oxidative stress in the brain.

Distinct Pharmacological Profiles of Monosulfide and Trisulfide in an Experimental Model of Intracerebral Hemorrhage in Mice.

Hydrogen sulfide and polysulfides are increasingly recognized as bioactive signaling molecules to produce various actions and regulate (patho)physiological processes. Here we examined the effects of sodium sulfide (Na2S) and sodium trisulfide (Na2S3) on an experimental model of intracerebral hemorrhage (ICH) in mice. Na2S or Na2S3 (25 µmol/kg, intraperitoneally (i.p.)) was administered 30 min before ICH induction by intrastriatal injection of collagenase. We found that Na2S significantly ameliorated sensorimotor functions of mice after ICH. Histopathological examinations revealed that Na2S inhibited neuron loss in the striatum, prevented axon degeneration in the internal capsule, and ameliorated axonal transport dysfunction in the striatum and the cerebral cortex where the edge of hematoma was located. Although Na2S did not suppress accumulation of activated microglia/macrophages in the peri-hematoma region, it suppressed ICH-induced upregulation of inflammatory mediators such as C-X-C motif ligand 2. On the other hand, Na2S3 did not ameliorate ICH-induced sensorimotor dysfunction. Although the effect of Na2S3 on several parameters such as axon degeneration and axonal transport dysfunction was comparable to that of Na2S, Na2S3 did not significantly inhibit neuron loss and upregulation of inflammatory mediators. These results suggest that the regulation of multiple pathological events is involved in the effect of Na2S leading to amelioration of neurological symptoms associated with ICH.

Effect of cardamonin on hepatic ischemia reperfusion induced in rats: Role of nitric oxide.

Ischemia reperfusion (I/R) injury is a cellular damage in a hypoxic organ following the restoration of oxygen delivery. It may occur during organ transplantation, trauma and hepatectomies. Nitric oxide (NO) effects during hepatic I/R are complicated. The iNOS-derived NO has a deleterious effect, whereas eNOS-derived NO has a protective effect in liver I/R. Cardamonin (CDN) is an anti-inflammatory molecule and a novel iNOS inhibitor, and Nω-Nitro-L-arginine (L-NNA) is a NOS inhibitor. L-Arginine is a precursor of NOS. This study was designed to investigate the possible protective effects of CDN on hepatic I/R and the role of NO. Wistar rats were randomly divided into 5 groups (Sham, I/R, CDN, L-NNA and L-arginine). Liver ischemia was induced for 45min then reperfusion was allowed for 1h. L-Arginine and CDN ameliorated the deleterious effects of I/R through reducing the oxidative stress and hepatocyte degeneration. Both molecules decreased the elevated inflammatory cytokines and increased the antiapoptotic marker, Bcl2. Both agents increased NO and eNOS expression and decreased iNOS expression. In conclusion, increased NO/eNOS and suppression of iNOS expression have protective effects on I/R injury. While inhibition of eNOS and reduction of NO have deleterious effects on I/R injury. For the first time, we demonstrated that cardamonin improved functional and structural abnormalities of the liver following I/R by improving oxidative stress and inflammation and increasing the availability of NO produced by eNOS. Treatment with cardamonin could be a promising strategy in patients with hepatic I/R injury in different clinical situations.

Quercetin and tin protoporphyrin attenuate hepatic ischemia reperfusion injury: role of HO-1.

Ischemia reperfusion (IR) injury occurs in many clinical situations such as organ transplantation and hepatectomies resulting in oxidative stress and immune activation. Heme oxygenase-1(HO-1) is the rate-limiting step in the heme-degradation pathway and has a critical cytoprotective role. Induction of HO-1 improves liver I/R injury. Quercetin, a plant pigment (flavonoid), is an antioxidant and HO-1 inducer. Tin protoporphyrin (SnPP) is a HO-1 inhibitor. This study was designed to investigate the protective effect of quercetin in hepatic I/R injury and the role of HO-1. Wister rats were randomly divided into four groups (sham, I/R, quercetin, and SnPP). Liver ischemia was induced for 45 min then reperfusion was allowed for 1 h. Quercetin and surprisingly SnPP ameliorate the deleterious effect of I/R by reducing the oxidative stress and hepatocyte degeneration. Both agents decreased the elevated inflammatory cytokines and improved the inhibition of the antiapoptotic marker, Bcl2. They induced HO-1 content and expression. Quercetin has better cytoprotective effect than SnPP. These findings suggest that quercetin has a hepatoprotective effect against I/R injury via HO-1 induction and unexpectedly, SnPP showed the similar effect. Quercetin has more prominent protective effect than SnPP because of its superior ability to induce HO-1.