10.3969/j.issn.1008-9691.2013.03.011

Hepatolenticular degeneration (HLD) is a rare genetic metabolic disorder of the nervous system with complex and diverse clinical phenotypes and is difficult to diagnose. The common lesions of HLD brain area are basal ganglia, thalamus, cerebellum and other anatomical structures, the classic manifestations of brain magnetic resonance imaging are symmetrical bilateral lenticular nucleus with low signal on T 1WI and high signal on T 2WI, and it is extremely rare for cases with high signal intensity on diffusion weighted imaging (DWI) of the brain stem, bilateral cerebral peduncles, thalamus, and basal ganglia. This article reported a case of HLD with high signal on DWI for clinical reference.

BACKGROUND:It was found that the ligands and receptors of Notch are both cell membrane surface proteins,which are important proteins to mediate intercellular communication,and the Notch signaling pathway plays a crucial regulatory role in the proliferation and differentiation of mesenchymal stem cells. OBJECTIVE:To review the regulatory mechanism of the Notch signaling pathway on the proliferation and differentiation of mesenchymal stem cells,summarize and clarify the research advance in how the Notch signaling pathway regulates the proliferation and differentiation of mesenchymal stem cells,and provide theoretical support for the future use of stem cells to treat various related diseases. METHODS:By using the computer,the first author searched the relevant studies involving Notch signaling pathway regulation of mesenchymal stem cell proliferation and differentiation on CNKI,Wanfang,VIP,PubMed,Web of Science,and Nature databases with Chinese search terms"mesenchymal stem cells,Notch,Notch signaling pathway,proliferation,differentiation"and the English search terms"mesenchymal stem cells,MSC,Notch,Notch signaling pathway,proliferation,differentiation".Part of the literature was searched in combination with the literature tracing method.Finally,87 articles were included in the review analysis. RESULTS AND CONCLUSION:(1)Notch signaling pathway is a conserved signaling pathway in multicellular organisms,which plays an important role in regulating cell differentiation,proliferation,apoptosis,and the cell cycle by mediating communication between neighboring cells through receptor-ligand binding.(2)Mesenchymal stem cells are a class of adult stem cells with self-proliferative and multi-directional differentiation potential,which can be regulated by external signaling pathways to affect their proliferation and differentiation.Notch signaling pathway,as one of them,when Notch ligands are activated,the Notch proteins will undergo two protein hydrolysis cleavages to release Notch intracellular structural domain NICD,which then enters the nucleus and thus promotes the transcription of target genes to regulate the proliferation and differentiation of mesenchymal stem cells from different sources,such as bone marrow,adipose,and umbilical cord.However,the specific mechanisms that regulate the proliferation and differentiation of mesenchymal stem cells from different tissue sources of the same species are different.(3)The Notch signaling pathway can regulate the differentiation of mesenchymal stem cells into different target cells,but due to different target cells,the expression levels of receptors or ligands in the Notch signaling pathway vary.(4)Clinical targeting of the Notch signaling pathway to promote mesenchymal stem cells for the treatment of various refractory diseases,such as aplastic anemia,severe joint injuries,ischemic strokes,and myocardial infarctions,has a promising application.(5)By exploring the Notch signaling pathway via regulating the expression levels of its receptors and ligands in bone marrow mesenchymal stem cells from rat,mouse,and human,it can be found that the Notch signaling pathway expression levels in the proliferation and differentiation of mesenchymal stem cells from different species origins are also different.(6)The role of mesenchymal stem cells in tissue engineering has been gradually highlighted due to their advantages of safety,low immune rejection,and wide therapeutic prospects.The Notch signaling pathway regulates the proliferation and differentiation of mesenchymal stem cells with a wide range of influencing factors,and subsequent studies should further optimize the influencing factor variables and explore the standardized studies of regulating the proliferation and differentiation of mesenchymal stem cells.

ObjectiveTo investigate the protective effect and underlying mechanism of Gandou Fumu decoction （GDFMT） on renal fibrosis in a mouse model of Wilson's disease. MethodSixty adult male toxic milk （TX） mice were randomly divided into a model group， high-， medium-， and low-dose GDFMT groups， and a positive control （penicillamine） group， and another 12 wild-type mice were assigned to the normal group. The high-， medium-， and low-dose GDFMT groups were administered GDFMT at 13.92， 6.96， 3.48 g·kg^-1， respectively， and the positive control group received penicillamine at 0.1 g·kg^-1， while the model and normal groups were given an equal volume of 0.9% saline solution by gavage once a day for 4 consecutive weeks. Enzyme-linked immunosorbent assay （ELISA） was used to measure the levels of blood urea nitrogen （BUN）， creatinine （CRE）， type Ⅲ procollagen （PC-Ⅲ）， and type Ⅳ collagen （C-Ⅳ） in the serum. Histological changes in the mouse kidneys were examined by hematoxylin-eosin （HE） and Masson's trichrome staining. Immunofluorescence was used to assess the protein expression of leptin， Janus kinase 2 （JAK2）， and signal transducer and activator of transcription （STAT） in renal cells. Real-time polymerase chain reaction （Real-time PCR） was performed to analyze the mRNA expression levels of leptin， leptin receptor（OB-R）， JAK2， and STAT. Western blot was used to detect the expression of transforming growth factor-β₁ （TGF-β₁） and monocyte chemoattractant protein-1 （MCP-1）. ResultCompared with the normal group， the model mice exhibited a significant increase in BUN， CRE， PC-Ⅲ， and C-Ⅳ levels （P<0.01）. Compared with the model group， the high- and medium-dose GDFMT groups and the penicillamine groups showed significant decreases in these parameters （P<0.05， P<0.01）， with the high-dose GDFMT group demonstrating the most significant reduction （P<0.01）. The histological examination of renal tissue revealed fibrosis in the model group， while the fibrotic damage was mitigated to varying degrees after drug intervention， with improvement in fibrosis. Immunofluorescence results showed that leptin， JAK2， and STAT3 protein expression levels were significantly upregulated in the renal fibrosis of the model group. After GDFMT intervention， the fluorescence intensity decreased， with the high-dose GDFMT group showing the lowest intensity. Real-time PCR results demonstrated that leptin， OB-R， JAK2， and STAT3 mRNA expression levels were significantly elevated in the model group compared with those in the normal group， while the high- and medium-dose GDFMT groups and the penicillamine group showed significant reductions in their expression levels （P<0.05， P<0.01）. Western blot analysis revealed that TGF-β₁ and MCP-1 expression levels were significantly increased in the model group （P<0.01）， and the high- and medium-dose GDFMT groups exhibited significant reductions in their expression levels （P<0.01）. ConclusionGDFMT can alleviate renal fibrosis damage in TX mice， and its mechanism of action may be related to the regulation of leptin and the JAK/STAT signaling pathway.

Wilson's disease (WD) is a rare autosomal recessive disorder with a complex pathogenesis involving multiple systems, multiple visceral organs, and the complex copper homeostasis regulation system within the body. The liver is the most common organ for copper deposition, and liver injury is the earliest and most common manifestation of WD; therefore, it is important to find an ideal animal model for WD research. By summarizing the animal models of WD commonly used in the world, this article systematically summarizes the background, liver and nervous manifestations, and application of different models and compares the characteristics of different animal models, so as to provide a reference for the application of various animal models of WD.

Liver fibrosis is the initial stage of the development of various chronic liver diseases into liver cirrhosis and is a reversible process. As a subset of extracellular vesicles that can carry active substances such as proteins, lipids, and RNA, exosomes are involved in intercellular signal communication and have attracted more and more attention in recent years. Studies have shown that non-coding RNAs in exosomes play an important role in the development and progression of liver fibrosis. This article discusses the mechanism of action of exosome long non- coding RNAs (including MALAT1, H19, GAS5, MEG3, PVT1, and P21), exosome short non-coding RNAs (including micro-RNA, small nucleolus RNA, PIWI-interacting RNA, and small interference RNA), and exosome circular RNA in the development and progression of liver fibrosis, and it is concluded that exosomes from different sources (such as hepatocytes and cholangiocytes) carrying non-coding RNAs mainly affect the activation, proliferation, migration, and transformation of hepatic stellate cells. In-depth studies of exosome non-coding RNAs in the future are expected to find potential new targets for the treatment of liver fibrosis.

Wilson's disease （WD） is a copper metabolism disorder caused by mutations in the ATP7B gene， with diverse phenotypes and complex pathogenesis. It is one of the few rare diseases that can achieve good clinical efficacy through standardized treatment. Since there are few systematic reviews of this disease， we summarize the pathogenesis and treatment methods of WD from traditional Chinese and western medicine by reviewing the literature related to WD. In western medicine， ATP7B gene mutation is considered as the root cause of WD， which affects copper transport and causes copper metabolism disorders. The excessive copper deposited in the body will result in oxidative stress， defects in mitochondrial function， and cell death. Western medicine treatment of WD relies mainly on drugs， and copper antagonists are the first choice in clinical practice， which are often combined with hepatoprotective and antioxidant therapy. Surgery is a common therapy for the patients with end-stage WD， and gene therapy provides an option for WD patients. According to the traditional Chinese medicine （TCM） theory， WD is rooted in constitutional deficiency and copper accumulation and triggered by dampness-heat accumulation or phlegm combined with stasis. The patient syndrome varies in different stages of the disease， and thus the treatment should be based on syndrome differentiation. The TCM treatment method of nourishing the liver and kidneys and warming the spleen and kidneys can address the root cause. The methods of clearing heat and drying dampness， resolving phlegm and dispelling stasis， and soothing liver and regulating qi movement can be adopted to treat symptoms. On the basis of syndrome differentiation， special prescriptions for the treatment of WD have been formulated， such as Gandou decoction， Gandouling， and Gandou Fumu decoction， which have been widely used in clinical practice. TCM and western medicine have their own advantages and shortcomings. The integrated Chinese and western medicine complementing with each other demonstrates great therapeutic potential. This paper summarizes the pathogenesis and treatment of WD with integrated Chinese and western medicine， aiming to provide a reference for the clinical diagnosis and treatment of this disease.

Tooth germ injury can lead to abnormal tooth development and even tooth loss, affecting various aspects of the stomatognathic system including form, function, and appearance. However, the research about tooth germ injury model on cellular and molecule mechanism of tooth germ repair is still very limited. Therefore, it is of great importance for the prevention and treatment of tooth germ injury to study the important mechanism of tooth germ repair by a tooth germ injury model. Here, we constructed a Tg(dlx2b:Dendra2-NTR) transgenic line that labeled tooth germ specifically. Taking advantage of the NTR/Mtz system, the dlx2b⁺ tooth germ cells were depleted by Mtz effectively. The process of tooth germ repair was evaluated by antibody staining, in situ hybridization, EdU staining and alizarin red staining. The severely injured tooth germ was repaired in several days after Mtz treatment was stopped. In the early stage of tooth germ repair, the expression of phosphorylated 4E-BP1 was increased, indicating that mTORC1 is activated. Inhibition of mTORC1 signaling in vitro or knockdown of mTORC1 signaling in vivo could inhibit the repair of injured tooth germ. Normally, mouse incisors were repaired after damage, but inhibition/promotion of mTORC1 signaling inhibited/promoted this repair progress. Overall, we are the first to construct a stable and repeatable repair model of severe tooth germ injury, and our results reveal that mTORC1 signaling plays a crucial role during tooth germ repair, providing a potential target for clinical treatment of tooth germ injury.
Animals ; Mice ; Mechanistic Target of Rapamycin Complex 1/pharmacology* ; Signal Transduction ; Tooth/metabolism* ; Tooth Germ/metabolism* ; Odontogenesis

Hepatolenticular degeneration， also known as Wilson disease （WD）， is a hereditary disease caused by mutations in the ATP7B gene， leading to copper metabolism disorders. Gene mutations result in impaired synthesis of copper-binding protein， and abnormal excretion of copper through bile leads to pathological deposition of copper in various organs， ultimately causing multi-organ damage. The insidious onset and low specificity of symptoms make it difficult to diagnose this disease. On the basis of existing studies and the theory of latent toxin， this paper proposes that latent toxin in kidney collaterals is the main pathogenesis of renal injury in WD. It is pointed out that health Qi deficiency and latent pathogen are the premises for the occurrence of this disease， and the transformation of latent pathogen into toxin is the ley pathological process. Toxin damaging kidney collaterals is the ultimate result. According to the pathogenesis， this paper proposes the treatment principle of reinforcing healthy Qi and resolving toxin and treatment based on syndrome differentiation. This review provides new ideas for the diagnosis and treatment of renal injury in WD with traditional Chinese medicine.

ObjectiveTo observe the clinical efficacy of Gandouling decoction combined with neuromuscular electrical stimulation （NMES） in the treatment of dysphagia in Wilson disease （WD） with combined phlegm and stasis. MethodsA total of 80 WD patients with dysphagia due to combined phlegm and stasis treated in the Department of Encephalopathy， the First Affiliated Hospital of Anhui University of Chinese Medicine were randomized into a control group and an observation group， with 40 patients in each group. In addition， 40 healthy volunteers were recruited as the normal group. The control group was treated with basic copper drainage combined with NMES. The observation group was treated with Gandouling Decoction on the basis of the therapy in the control group. Each course of treatment lasted for 8 days， and the patients were treated for a total of 4 courses. All subjects underwent video fluoroscopic swallowing study （VFSS） before and after treatment. During the examination， contrast agents with 4 different characters were used for the swallowing action， and the passing time was recorded. The TCM syndrome score， water swallow test score， standard swallowing assessment （SSA） score， and 24-h urinary copper level before and after treatment were analyzed. ResultsWhen performing VFSS， the passing time of contrast agents of different characters in the oral stage was longer in the WD group than in the normal group （P<0.01）， while it had no significant difference in the pharyngeal stage. After treatment， the passing time in the oral stage shortened in the control and observation groups （P<0.01）， and the observation group outperformed the control group （P<0.01）. After treatment， both the control and observation groups showed declines in TCM syndrome score and SSA score （P<0.01） and an increase in water swallow test score （P<0.01）， and the changes were more obvious in the observation group than in the control group （P<0.01）. In addition， the treatment in the control and observation groups elevated the 24-h urinary copper level （P<0.01）， and the elevation in the observation group was more obvious than that in the control group （P<0.01）. Neither group showed obvious adverse reaction. ConclusionGandouling decoction combined with NMES can significantly ameliorate dysphagia in WD patients with the syndrome of combined phlegm and stasis regarding the TCM syndrome score， water swallow test score， and SSA score， demonstrating definite clinical efficacy and high safety.