Pharmacological potential of ginseng and ginsenosides in nonalcoholic fatty liver disease and nonalcoholic steatohepatitis

Regulatory roles of noncanonical inflammasomes in kidney diseases

Inflammation is a body's immune defense against infection and injury. The inflammatory response has two main phases: the priming and triggering phases. The triggering phase involves the activation of inflammasomes, cytoplasmic platforms for initiating inflammation, and Inflammasomes are classified into two categories: canonical and noncanonical. Kidney disease, or renal disease, refers to damage or illness affecting the kidneys, leading to a progressive decline in their function. Although the roles of canonical inflammasomes in kidney diseases are well-documented, recent research highlights novel roles of noncanonical inflammasomes in managing various inflammatory conditions. In particular, emerging studies emphasize the regulatory functions of noncanonical inflammasomes in a range of kidney diseases. This review explores recent discoveries regarding the regulatory functions of noncanonical inflammasomes, including human caspase-4/5 and murine caspase-11, in the progression of kidney diseases. It also examines the potential of targeting these inflammasomes as a novel therapeutic approach.

Anti-Colorectal Cancer Activity of Panax and Its Active Components, Ginsenosides: A Review

Colorectal cancer (CRC) poses a significant health burden worldwide and necessitates novel treatment approaches with fewer side effects than conventional chemotherapy. Many natural compounds have been tested as possible cancer treatments. Plants in the genus Panax have been widely studied due to their therapeutic potential for various diseases such as inflammatory disorders and cancers. Extracts from plants of genus Panax activate upstream signals, including those related to autophagy and the generation of reactive oxygen species, to induce intrinsic apoptosis in CRC cells. The root extract of Panax notoginseng (P. notoginseng) regulated the gut microbiota to enhance the T-cell-induced immune response against CRC. Protopanaxadiol (PPD)-type ginsenosides, especially Rh2, Rg3, Rb1, and Rb2, significantly reduced proliferation of CRC cells and tumor size in a xenograft mouse model, as well as targeting programmed death (PD)-1 to block the immune checkpoint of CRC cells. Moreover, modified nanocarriers with ginsenosides upregulated drug efficacy, showing that ginsenosides can also be utilized as drug carriers. An increasing body of studies has demonstrated the potential of the genus Panax in curing CRC. Ginsenosides are promising active compounds in the genus Panax, which can also support the activity of conventional cancer therapies.

Ginsenoside Rg1: A bioactive therapeutic agent for diverse liver diseases

Diverse liver diseases are characterised by late diagnosis and rapid progression and have become one of the major threats to human health. To delay the transition from benign tissue lesions to a substantial organ injury, scientists have gradually applied natural compounds derived from plants as a complementary therapy in the field of hepatology. Ginseng (Panax ginseng C. A. Meyer) is a tonic traditional Chinese herbal medicine, and natural products, including ginsenoside Rg1 (G-Rg1), which is a kind of 20(S)-protopanaxatriol saponin with a relatively high biological activity, can be isolated from the roots or stems of ginseng. Given these information, this review aimed to summarise and discuss the metabolic mechanisms of G-Rg1 in the regulation of diverse liver diseases and the measures to improve its bioavailability. As a kind of monomer in Chinese medicine with multitarget pharmacological effects, G-Rg1 can provide significant therapeutic benefits in the alleviation of alcoholic liver disease, nonalcoholic fatty liver disease, liver fibrosis, viral hepatitis, etc., which mainly rely on the inhibition of apoptosis, strengthening endogenous anti-inflammatory and antioxidant mechanisms, activation of immune responses and regulation of efflux transport signals, to improve pathological changes in the liver caused by lipid deposition, inflammation, oxidative stress, accumulation of hepatotoxic product, etc. However, the poor bioavailability of G-Rg1 must be overcome to improve its clinical application value. In summary, focusing on the hepatoprotective benefits of G-Rg1 will provide new insights into the development of natural Chinese medicine resources and their pharmaceutical products to target the treatment of liver diseases.

Regulatory Roles of Noncanonical Inflammasomes in Inflammatory Lung Diseases

The inflammatory response consists of two stages: priming and triggering. The triggering stage is marked by the activation of inflammasomes, which are cytosolic protein complexes acting as platforms for inflammation. Inflammasomes are divided into canonical and noncanonical categories. Inflammatory lung diseases such as asthma, chronic obstructive pulmonary disease (COPD), acute respiratory distress syndrome (ARDS), inflammatory lung injury, and pulmonary fibrosis arise from lung inflammation and damage. While the role of canonical inflammasomes in these diseases is well demonstrated, recent findings emphasize the critical roles of noncanonical inflammasomes in regulating inflammation and various inflammatory conditions. Particularly, new studies highlight their involvement in inflammatory lung diseases. This review delves into recent research on the regulatory roles of noncanonical inflammasomes, such as human caspase-4 and murine caspase-11, in lung inflammation and the development of inflammatory lung diseases, as well as the potential for targeting these inflammasomes for new treatments.

A combined association of alanine aminotransferase, aspartate transaminase and bilirubin with sleep duration in aged 16-85 years (2005-2010)

Sleep is a vital restorative process that plays a pivotal role in maintaining the delicate equilibrium of mental and physical well-being. Both short and long sleep duration are associated with a range of adverse health outcomes. Numerous studies have consistently demonstrated a robust association between sleep duration and liver disease. In this study, we conducted statistical tests and performed subgroup analyses to explore potential variations in this association across different contexts, aiming to elucidate the correlation between ALT, AST, and TB with sleep duration. This cross-sectional investigation utilized datasets from the National Health and Nutrition Examination Survey 2005 to 2010. Multivariate linear regression models were used to examine the linear association between ALT, AST, and TB with sleep duration. Test for interaction is commonly conducted using multivariabte models to assess statistically significant subgroup disparities. Fitted smoothied curves and threshold effect analyses were employed to depict nonlinear relationships. The study enrolled 17,491 participants aged 16 to 85 years who met the inclusion and exclusion criteria, with a mean age of the participants was 45.58 ± 19.94 years. Multivariate linear regression analysis showed a significant positive association between sleep duration and ALT [-0.23 (-0.45, -0.00) 0.0455] and AST[-0.20 (-0.38, -0.01) 0.0338] in Model 3. Using a two-segment linear regression model, we found an U-shaped relationship and significant inflection point between between ALT and AST with sleep duration. The present study unveiled a significant inverse correlation between sleep duration and levels of ALT and AST, while no significant association was observed with TB levels. Furthermore, variations in the optimal sleep duration for liver function recovery were identified across diverse populations, thereby offering valuable healthcare recommendations to public.

The Regulatory Roles of Inflammation and Inflammasomes in Liver Diseases

Inflammation is an innate immune response that protects our body from various pathogens and cellular dangers [...].

Research Progress on Effects of Ginsenoside Rg2 and Rh1 on Nervous System and Related Mechanisms

Neurological-related disorders are diseases that affect the body's neurons or peripheral nerve tissue, such as Parkinson's disease (PD) and Alzheimer's disease (AD). The development of neurological disorders can cause serious harm to the quality of life and functioning of the patient. The use of traditional therapeutic agents such as dopamine-promoting drugs, anticholinergic drugs, cholinesterase inhibitors, and NMDA receptor antagonists is often accompanied by a series of side effects such as drug resistance, cardiac arrhythmia, liver function abnormalities, and blurred vision. Therefore, there is an urgent need to find a therapeutic drug with a high safety profile and few side effects. Herbal medicines are rich in active ingredients that are natural macromolecules. Ginsenoside is the main active ingredient of ginseng, which has a variety of pharmacological effects and is considered to have potential value in the treatment of human diseases. Modern pharmacological studies have shown that ginsenosides Rg2 and Rh1 have strong pharmacological activities in the nervous system, with protective effects on nerve cells, improved resistance to neuronal injury, modulation of neural activity, resistance to cerebral ischemia/reperfusion injury, improvement of brain damage after eclampsia hemorrhage, improvement of memory and cognitive deficits, treatment of AD and vascular dementia, alleviation of anxiety, pain, and inhibition of ionic-like behavior. In this article, we searched the pharmacological research literature of Rg2 and Rh1 in the field of neurological diseases, summarized the latest research progress of the two ginsenosides, and reviewed the pharmacological effects and mechanisms of Rg2 and Rh1, which provided a new way of thinking for the research of the active ingredients in ginseng anti-neurological diseases and the development of new drugs.