Impact of renal ischemia/reperfusion injury on the rat Kupffer cell as a remote cell: A biochemical, histological, immunohistochemical, and electron microscopic study

Dysfunction of aged liver of male albino rats and the effect of intermitted fasting; Biochemical, histological, and immunohistochemical study

Intermittent fasting exerts beneficial effects on most age-related degenerative changes throughout the body. This study aimed to investigate the possible protective effects and mechanism of intermittent fasting on aged liver in male albino rats. Forty male albino rats were used in this study and were divided into four equal groups; Group I served as control ; rats aged 1 month sacrfied when they reached age of 4 month. Group II; rats aged 1 month with intermittent fasting for 3 months. The rats sacrfied when they reached age of 4 mounth Group III; rats aged 15-month fed an ad-libitum diet. The rats sacrified when they reached age of 18 month. Group IV; 15 month rats with intermittent fasting for 3 months. The rats sacrified when they reached age of 18 month. Liver specimens were excised and processed for biochemical, histological, and immunohistochemical study. Blood samples were collected for biochemical study. The result showed a significant increase in liver injury, oxidative stress, and inflammatory markers with a marked decrease in the autophagy marker in group III if compared with both group I and II. Additionally, group III showed hepatic vacuolations, cellular filtration, and congestion in both central and portal veins. A highly significant increase in the mean color intensity of positive immunochemical reaction for anti caspase 3 and anti-TNFα as well as a highly significant increase in the surface area fraction of collagen fibers were noticed in group III if compared with group I and II. Interestingly, intermittent fasting (group IV) remarkably reduced the previous alternation that that occurred in group III. It could be concluded that various biochemical, histological, and immunohistochemical alterations were observed in liver rat in group III. Beneficial effects of fasting on these changes were recorded in group IV through its anti-inflammatory, anti-apoptotic effect as well as its effect in modulating autophagy in aged liver cells. This might open the gate for further research and provide a new line for therapeutic intervention in aged liver. These data lead to speculate that sporadic fasting might represent a simple, safe, and inexpensive means to fight the changes occurred in the aged liver.

Umbelliferone alleviates hepatic ischemia/reperfusion-induced oxidative stress injury via targeting Keap-1/Nrf-2/ARE and TLR4/NF-κB-p65 signaling pathway

Umbelliferone (UMB; 7-hydroxycoumarin) is a natural compound that exhibited a diversity of pharmacological activities. Its protective effects against various ischemia/reperfusion (IR) injuries, including heart, kidney, and testis, have been observed. However, their effect on hepatic IR is still not investigated yet. Here, this study was conducted to examine the potential protective role of UMB during the early phase of hepatic IR injury via targeting Keap-1/Nrf-2/ARE and its closely related signaling pathway, TLR4/NF-κB-p65. Experimentally, forty Wistar albino rats were randomly divided into 4 groups: Sham control group (received 1% carboxymethyl cellulose as a vehicle), UMB group (30 mg/kg/day, P.O.), IR group (subjected to complete hepatic IR injury), and IR + UMB group. Our results revealed that oral UMB effectively reduced the serum levels of ALT, AST, ALP, and LDH along with the restoration of oxidant/antioxidant status. At the molecular level, UMB markedly activated Nrf-2 expression and its down-streaming targets: HO-1, NQO1, GCLC, SOD3, and TNXRD1, along with Keap-1 down-regulation. Besides, UMB significantly down-regulated NF-κB-p65 and TLR4 expressions with subsequent decreased TNF-α and IL-1β levels coupled with the up-regulation of the IL-10 level. Finally, biochemical findings were confirmed by attenuation of histopathological changes in liver tissues. Together, UMB is a promising agent for the amelioration of liver tissues against IR-induced oxidative injury through activation of the Keap-1/Nrf-2/ARE signaling pathway along with suppression of its closely related signaling pathways: TLR4/NF-κB-p65. Illustrated diagram explored the prospective underlying protective mechanism of UMB against IR-induced hepatic damage.

Effects of platelet rich plasma on experimentally induced diabetic heart injury

Diabetic heart is one of the common complications of diabetes mellitus. Platelet-rich plasma (PRP) is an autologous product rich in growth factors that can enhance tissue regeneration. This work was conducted to study the PRP ability to improve diabetes-inducing cardiac changes. Also, it sheds more light on the possible mechanisms through which PRP induces its effects. Rats were divided into; control, PRP, diabetic, and PRP-diabetic groups. Cardiac specimens were obtained and processed for biochemical, histological, and immunohistochemical study. The diabetic group exhibited a significant increase in cardiac oxidative stress, inflammation, and cardiac injury markers if compared with the control group. Additionally, the cardiac tissue showed variable morphological changes in the form of focal distortion and loss of cardiac myocytes. Distorted mitochondria and heterochromatic nuclei were observed in the cardiac muscle fibers. The mean number of charcoal-stained macrophages, and mean area fraction for collagen fibers, mean number of PCNA-immune positive cardiac muscle were significantly decrease in PRP- diabetic group. Collectively, the results showed that PRP treatment ameliorated most of all these previous changes. CONCLUSION: PRP ameliorated the diabetic cardiac injury via inhibition of oxidative stress and inflammation. It was confirmed by biochemical, histological, and immunohistochemical study. It could be concluded that PRP could be used as a potential therapy for diabetic heart.