Gastrodia elata, a traditional Chinese medicine, has been widely used since ancient times to treat diseases such as dizziness, epilepsy, stroke, and memory loss. Gastrodin, one of the active components of Gastrodia elata, has been used in the treatment of migraine, epilepsy, Parkinson’s disease, dementia, and depression in recent years. It can improve cognitive function and related neuropsychiatric symptoms through various effects and is considered as a promising treatment for dementia. Vascular dementia is a kind of severe cognitive impairment syndrome caused by vascular factors, and it is the dementia syndrome with the largest number of patients besides Alzheimer’s disease. Although there is still a lack of evidence-based explorations, the paper reviewed the mechanism and methods of gastrodin in the treatment of vascular dementia, providing a reference for clinical therapy.
Peroxiredoxins are multifunctional enzymes that play a key role in protecting cells from stresses and maintaining the homeostasis of many cellular processes. Peroxiredoxins were firstly identified as antioxidant enzymes that can be found in all living organisms. Later studies demonstrated that peroxiredoxins also act as redox signaling regulators, chaperones, and proinflammatory factors and play important roles in oxidative defense, redox signaling, protein folding, cycle cell progression, DNA integrity, inflammation, and carcinogenesis. The versatility of peroxiredoxins is mainly based on their unique active center cysteine with a wide range of redox states and the ability to switch between low- and high-molecular-weight species for regulating their peroxidase and chaperone activities. Understanding the molecular mechanisms of peroxiredoxin in these processes will allow the development of new approaches to enhance longevity and to treat various cancers. In this article, we briefly review the history of peroxiredoxins, summarize recent advances in our understanding of peroxiredoxins in aging- and cancer-related biological processes, and discuss the future perspectives of using peroxiredoxins in disease diagnostics and treatments.
Baseline b-cell mass is established during the early postnatal period when b-cells expand. In this study, we show that heterozygous ablation of Insm1 decreases baseline b-cell mass and subsequently impairs glucose tolerance. When exposed to a high-fat diet or on an ob/ob background, glucose intolerance was more severe in Insm1 +/lacZ mice compared with Insm1 +/+ mice, although no further decrease in the b-cell mass was detected. In islets of early postnatal Insm1 +/lacZ mice, the cell cycle was prolonged in b-cells due to downregulation of the cell cycle gene Ccnd1. Although Insm1 had a low affinity for the Ccnd1 promoter compared with other binding sites, binding affinity was strongly dependent on Insm1 levels. We observed dramatically decreased binding of Insm1 to the Ccnd1 promoter after downregulation of Insm1 expression. Furthermore, downregulation of Ccnd1 resulted in a prolonged cell cycle, and overexpression of Ccnd1 rescued cell cycle abnormalities observed in Insm1-deficient b-cells. We conclude that decreases in Insm1 interfere with b-cell specification during the early postnatal period and impair glucose homeostasis during metabolic stress in adults. Insm1 levels are therefore a factor that can influence the development of diabetes.Pancreatic b-cell mass is regulated both during development and in the adult. Lineage tracing in animals indicates that embryonic b-cells mainly differentiate from pancreatic progenitor cells (1), whereas postnatal increases in b-cell mass arise through self-renewal (2,3). b-Cell replication slows considerably in adults, although variations in insulin demand can lead to adaptive changes in b-cell mass (4). Sufficient b-cell mass is essential for normal regulation of blood glucose levels. Loss of b-cell mass by an immune attack or metabolic stressors results in type 1 and type 2 diabetes, respectively. In addition, although b-cell mass varies in individuals, low b-cell mass is a risk factor for prediabetes and diabetes (5). At least two factors contribute to total b-cell mass: replication capacity and baseline b-cell mass. The replication rate of adult b-cells is low, and massive efforts have been made to restore diabetic b-cell loss by enhancing b-cell replication. In contrast, the establishment of the baseline b-cell mass is not well investigated, and it is not yet fully understood how postnatal b-cell expansion varies in different individuals.The baseline b-cell mass is established in the early postnatal period in both mice and humans (2,6-8). Recent identified factors that modulate the postnatal b-cell expansion regulate the metabolic pathways or the cell cycle (9-11). The cyclin genes Ccnd1 and Ccnd2 are essential for postnatal b-cell growth and regulate the progression through G 1 through interaction with . Heterozygous mutations in Ccnd1 combined with complete knockout of Ccnd2 have dose-dependent effects on b-cell mass (14). Cell cycle inhibitors are another group of essential regulators in the postnatal b-cell mass expansion. p16 INK4a is a b-cell replication inhibi...
Alzheimer’s disease (AD) is a degenerative disease of the central nervous system characterized by memory loss and cognitive dysfunction. With the increasing aging of the population, the incidence of AD and the number of patients are also increasing year by year, causing more and more heavy burdens to the family and society. Catalpol, an iridoid glycoside compound, is one of the main active components of Rehmannia glutinosa. At present, a large number of experimental studies in vivo and in vitro have confirmed that catalpol has antioxidant, anti-inflammatory, antiapoptotic, and other neuroprotective effects, and it plays a significant role in the prevention and treatment of AD, with very small side effects and high safety. Therefore, it may be an ideal drug for the treatment of AD. Based on this, the role and mechanism of catalpol in AD will be comprehensively reviewed in the following.
Alzheimer’s disease (AD) is a geriatric disease with the morbidity and mortality continuing to grow, partly due to the aging of the world population. As one of the most common types of primary neurodegenerative dementia, it is mainly due to environmental, epigenetic, immunological, and genetic factors. Paeoniflorin (PF), the main component of paeony extract, plays a more and more important role in the prevention and treatment of AD, including regulating protein, anti-inflammation, antioxidation, and antiapoptosis, protecting glial cells, regulating neurotransmitters and related enzymes and receptors, and inhibiting or activating related signal pathways. This article summarizes the latest researches on the multiple effects and the mechanisms of PF in the treatment to cure AD, providing new insights and research basis for further clinical application of traditional Chinese medicine (TCM) in the treatment of AD.
Research Progress of Targeting Neuro-Immune Inflammation in the Treatment of Alzheimer's Disease
Alzheimer's disease (AD) is a degenerative disease of the central nervous system characterized by extracellular senile plaques and the formation of intracellular neurofibrillary tangles. The accumulation of toxic beta-amyloid (Aβ) induces the overproduction of reactive oxygen species (ROS), nitric oxide (NO) and pro-inflammatory cytokines. Accumulating studies suggest that neuroinflammatory mechanism plays an important role in the occurrence and development of AD. Microglia, astrocytes, macrophages, mast cells and T cells are involved in the pathogenesis of AD through neuroimmune mechanisms and inflammatory reactions. In recent years, many new drugs have been developed for the treatment of AD targeting neuroimmune and inflammatory mechanisms. Although some drugs failed in the Ⅲ phase of clinical trial, they made sense on subsequent research. This paper mainly discusses the positive effects on AD according to immunotherapy, anti-inflammatory treatment and regulation of immune inflammation by traditional Chinese medicine, in order to benefit for prevention or treatment of AD in the future.
Polycystic ovary syndrome (PCOS) is a reproductive endocrine disease characterized by menstrual disorders, infertility, and obesity, often accompanied by insulin resistance and metabolic disorders. The pathogenesis of PCOS is relatively complex and has a certain relationship with endocrine disorders. The increase of androgen and luteinizing hormone (LH) is the main cause of a series of symptoms. Traditional Chinese medicine (TCM) has obvious advantages and significant curative effects in the treatment of this disease. It can effectively reduce the insulin level of PCOS patients, regulate lipid metabolism, and increase ovulation rate and pregnancy rate and has fewer side effects. This article reviews the efficacy and safety of Chinese herbs and other TCM (such as acupuncture) in the treatment of PCOS and its complications in recent years, as well as the effect and mechanism on cellular endocrine, in order to provide a new clinical idea for the treatment of PCOS.
The incidence of sporadic Alzheimer’s disease (AD) is increasing in recent years. Studies have shown that in addition to some genetic abnormalities, the majority of AD patients has a history of long-term exposure to risk factors. Neuroendocrine related risk factors have been proved to be strongly associated with AD. Long-term hormone disorder can have a direct detrimental effect on the brain by producing an AD-like pathology and result in cognitive decline by impairing neuronal metabolism, plasticity and survival. Traditional Chinese Medicine(TCM) may regulate the complex process of endocrine disorders, and improve metabolic abnormalities, as well as the resulting neuroinflammation and oxidative damage through a variety of pathways. TCM has unique therapeutic advantages in treating early intervention of AD-related neuroendocrine disorders and preventing cognitive decline. This paper reviewed the relationship between neuroendocrine and AD as well as the related TCM treatment and its mechanism. The advantages of TCM intervention on endocrine disorders and some pending problems was also discussed, and new insights for TCM treatment of dementia in the future was provided.
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