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ABSTRACT The prevalence of nephrolithiasis is increasing worldwide. Despite advances in understanding the pathogenesis of lithiasis, few studies have demonstrated that specific clinical interventions reduce the recurrence of nephrolithiasis. The aim of this review is to analyze the current data and potential effects of iSGLT2 in lithogenesis and try to answer the question: Should we also "gliflozin" our patients with kidney stone disease?
RESUMO A prevalência da nefrolitíase está aumentando em todo o mundo. Apesar dos avanços na compreensão da patogênese da doença litiásica, poucos estudos demonstraram que intervenções clínicas específicas diminuem a recorrência da nefrolitíase. O objetivo desta revisão é analisar os dados atuais e efeitos potenciais dos iSGLT2 na doença litiásica e tentar responder à pergunta: devemos também "gliflozinar" os litiásicos?
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Introducción La diabetes mellitus tipo 2 es una enfermedad de alta prevalencia y está asociada a mayor morbimortalidad. Debido al bajo porcentaje de compensación, se han buscado nuevas estrategias de tratamiento farmacológico, como los inhibidores del cotransportador sodio-glucosa tipo 2. Objetivo Describir la evolución de pacientes diabéticos tipo 2 insulino-requirentes tratados con empagliflozina en el Hospital Peñaflor, ubicado en el sector poniente de la Región Metropolitana, Chile. El objetivo primario fue evaluar la eficacia del medicamento respecto a hemoglobina glicosilada A1c. Los objetivos secundarios fueron registrar el logro de hemoglobina glicosilada A1c igual o menor a 7,5% según análisis de supervivencia. Luego, consignar el cambio en la velocidad de filtración glomerular y en la excreción urinaria de albúmina post tratamiento. Métodos Revisión de ficha clínica de todos los pacientes tratados con empagliflozina desde noviembre de 2019 a junio de 2023. Media de seguimiento de 19 (de 16,3 a 40) meses. Para comparación entre valores de hemoglobina glicosilada A1c según rangos de seguimiento, se utilizó prueba T de Student de términos pareados o prueba de Wilcoxon. Resultados Se estudió a 58 pacientes, 15 hombres y 43 mujeres (74,1%). Edad 58,5 ± 9,2 años, rango de 35 a 75 años. Hemoglobina glicosilada A1c basal de 10,3 ± 1,6% y 8,98% ± 2,2 en un rango de seguimiento de 18 a 24 meses post tratamiento, resultando en un descenso de 1,27% (p = 0,002; intervalo de confianza 95%: 0,5 a 2,03). El efecto adverso más frecuente fue infección del tracto urinario. Conclusiones Los pacientes diabéticos tipo 2 insulino-requirentes tratados con empagliflozina en el Hospital Peñaflor lograron un mejor control glicémico con pocos efectos adversos.
Background Type 2 diabetes mellitus is a highly prevalent disease and is associated with increased morbidity and mortality. Due to the low percentage of adequate glycemic control, new strategies for the treatment of type 2 diabetes mellitus have been sought, including sodium-glucose cotransporter type 2 inhibitorss. Objective To describe the evolution of patients with type 2 diabetes mellitus with insulin requirements treated with empagliflozin at the Peñaflor Hospital. The primary objective was to evaluate the efficacy of the medication regarding glycosylated hemoglobin A1c (HbA1c). The secondary objectives were: 1) achievement of HbA1c equal to or less than 7.5% according to survival analysis. 2) Change in glomerular filtration rate and urinary albumin excretion post treatment. Methods Review of clinical records of all patients treated with empagliflozin from November 2019 to June 2023. Average follow-up of 19 (16.3 to 40) months. To compare HbA1c values according to follow-up ranges, the paired T test or Wilcoxon test was used. Results We included 58 patients, 15 men and 43 women (74.1%), with an average age of 58.5 ± 9.2 years, ranging from 35 to 75 years. Baseline HbA1c of 10.3 ± 1.6% and 8.98% ± 2.2 in a follow-up of 18 to 24 months post-treatment, resulted in a decrease of 1.27% (p = 0.002; confidence interval 95%: 0.5 to 2.03). The most common adverse effect was urinary tract infection. Conclusions Patients with type 2 diabetes mellitus with insulin requirements treated with empagliflozin at the Peñaflor Hospital achieved better glycemic control with few adverse effects.
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Age-related macular degeneration(ARMD)is a neurodegenerative disease associated with oxidative stress. It is characterized by progressive death of photoreceptors and retinal pigment epithelium(RPE), and is one of the leading causes of irreversible loss of central vision in patients over the age of 65 years old. MicroRNA(miRNA)is a class of regulatory short-chain non-coding RNA that can bind and inhibit multiple gene targets in the same biological pathway. This unique property makes microRNA an ideal target for exploring the pathogenesis, diagnosis and treatment of non-exudative ARMD. Previous studies have found that the pathogenesis of non-exudative ARMD involves age, genetics, environment, oxidative stress, lipid metabolism, autophagy and immunity. However, the exact mechanisms have not been fully clarified. As biomarkers of non-exudative ARMD, miRNA play a role in oxidative stress and lipid metabolism. This article summarizes the role of various miRNA in targeting Nrf2 and HIF-1α to inhibit hypoxia-related angiogenesis signaling, thereby affecting oxidative stress. Additionally, miRNA regulate lipid uptake and the expression of ABCA1 in RPE and macrophages, thereby influencing lipid metabolism. This deepens the understanding of the role of miRNA in oxidative stress and lipid metabolism in non-exudative ARMD, and provides directions for further improving the understanding of the pathogenesis and prevention of non-exudative ARMD.
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ObjectiveTo observe the effects of Baihe Yuzi prescription (BYP) on the cystic fibrosis transmembrane conductance regulator (CFTR), aquaporin (AQP), zinc/iron-regulated transporter-like protein (ZIP) and local oxidative stress in epididymis of oligoasthenozoospermia (OAS) rats, and to explore the mechanism of its intervention in OAS. MethodAfter 35 rats were acclimatized for 1 week, 7 rats were randomly selected as the normal group, and the remaining 28 rats were given tripterygium glycosides (TG) 30 mg·kg-1. After 4 weeks of modeling, they were randomly divided into 4 groups: model group, BYP low-dose group (LBYP), BYP high-dose group (HBYP) and levocarnitine group, with 7 rats in each group. The rats in the normal group and model group were given normal saline at the same dosage. The levocarnitine group rats were given L-carnitine oral liquid (100 mg·kg-1) by gavage. The LBYP group rats were given BYP 6.3 g·kg-1, and the HBYP group rats were given BYP 12.6 g·kg-1 by gavage once a day for consecutive 4 weeks. After the end of the intervention, sperm count and motility of all rats were detected, the histopathological structure of epididymis was observed by hematoxylin-eosin (HE) staining, and the expressions of CFTR, AQP9, AQP3, ZIP8, ZIP12 and other proteins were detected by Western blot. The contents of α-glycosidase (α-GC), sialic acid (SA), carnitine, superoxide dismutase (SOD), glutathione peroxidase (GSH-Px) and malondialdehyde (MDA) were detected by enzyme-linked immunosorbent assay (ELISA). Total zinc content was measured using an inductively coupled plasma mass spectrometer. Free zinc ion content was detected by zinc ion probes. ResultCompared with those in the normal group, the sperm count and motility of rats were decreased and the epididymal structure was disordered in the model group. The contents of α-GC and carnitine were decreased in epididymis (P<0.05). MDA levels were increased, while SOD, GSH-Px and zinc levels were decreased (P<0.05). The expressions of CFTR and ZIP12 in the head and cauda of the epididymis were down-regulated, and AQP3 expression was up-regulated. The expression of ZIP8 in the cauda epididymis was up-regulated (P<0.05). Compared with the model group, BYP can significantly improve the sperm count and motility, the epididymal structure of OAS rats and the levels of α-GC and carnitine (P<0.05). The expressions of CFTR and ZIP12 in the head and cauda of the epididymis were up-regulated, while the expressions of ZIP8 in the cauda epididymis and AQP3 in the head of the epididymis were decreased (P<0.05). The SOD and GSH-Px levels and total zinc content in epididymis were increased, and the MDA levels were decreased (P<0.05). ConclusionBYP may improve the sperm quality and repair epididymal tissue structure and function of OAS rats, by regulating the expressions of CFTR, AQP3, and ZIP12 ion channels and local antioxidant mechanism.
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Apical sodium-dependent bile acid transporter (ASBT) is a key transporter responsible for intestinal reabsorption of bile acid and plays an important role in maintaining bile acid and cholesterol homeostasis, and its expression is regulated by various factors including transcription factors, nuclear receptors, and intestinal microflora. The abnormal expression and function of ASBT can lead to disorders in the metabolism of bile acid and cholesterol, causing a variety of hepatobiliary diseases. At present, ASBT has attracted wide attention as a therapeutic target. This article elaborates on the biological characteristics and expression regulation mechanism of ASBT and reviews the role of ASBT in hepatobiliary diseases, in order to provide a new direction for the treatment of related diseases.
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Oral administration is the most convenient way of drug delivery, but due to the existence of intestinal barrier, the oral bioavailability of drugs is generally low, especially for drugs with low water solubility, poor permeability and macromolecules. For decades, researchers have demonstrated that nano-delivery system is one of the most effective strategies to solve this problem, but nano-delivery systems have shown limited improvement in the oral bioavailability of drugs. Therefore, researchers have proposed to use transporter-mediated nano-delivery systems to promote the oral absorption of drugs. The intestinal tract were highly expressed as a transporter for ingesting various nutrients(such as glucose, oligopeptides and bile acids), which was an excellent target of oral drug delivery system. Its substrate were modified on the nano-delivery system, and the loaded drugs could cross the intestinal barrier and enter the systemic circulation more efficiently through the targeting effect of transporters. At present, more and more evidences supported the potential of transporters in the field of oral drug delivery system. Therefore, this paper reviewed the research on intestinal transporters-mediated nano-delivery system to promote oral absorption of drugs, including the distribution of intestinal transporters, three strategies of transporter substrate modification, the transport properties of different types of transporters and their effects of mediating the nano-delivery system for promoting the oral absorption of drugs or treating diseases, with the aim of providing an important theoretical reference for the development of intestinal targeted nano-delivery systems.
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ABSTRACT Background: Critical illness is a major ongoing health care burden worldwide and is associated with high mortality rates. Sodium-glucose cotransporter-2 inhibitors have consistently shown benefits in cardiovascular and renal outcomes. The effects of sodium-glucose cotransporter-2 inhibitors in acute illness have not been properly investigated. Methods: DEFENDER is an investigator-initiated, multicenter, randomized, open-label trial designed to evaluate the efficacy and safety of dapagliflozin in 500 adult participants with acute organ dysfunction who are hospitalized in the intensive care unit. Eligible participants will be randomized 1:1 to receive dapagliflozin 10mg plus standard of care for up to 14 days or standard of care alone. The primary outcome is a hierarchical composite of hospital mortality, initiation of kidney replacement therapy, and intensive care unit length of stay, up to 28 days. Safety will be strictly monitored throughout the study. Conclusion: DEFENDER is the first study designed to investigate the use of a sodium-glucose cotransporter-2 inhibitor in general intensive care unit patients with acute organ dysfunction. It will provide relevant information on the use of drugs of this promising class in critically ill patients. ClinicalTrials.gov registry: NCT05558098
RESUMO Antecedentes: A doença crítica é um importante ônus permanente da assistência médica em todo o mundo e está associada a altas taxas de mortalidade. Os inibidores do cotransportador de sódio-glicose do tipo 2 têm demonstrado consistentemente benefícios nos desfechos cardiovasculares e renais. Os efeitos dos inibidores do cotransportador de sódio-glicose do tipo 2 em doenças agudas ainda não foram devidamente investigados. Métodos: O DEFENDER é um estudo de iniciativa do investigador, multicêntrico, randomizado, aberto, desenhado para avaliar a eficácia e a segurança da dapagliflozina em 500 participantes adultos com disfunção orgânica aguda hospitalizados na unidade de terapia intensiva. Os participantes aptos serão randomizados 1:1 para receber 10mg de dapagliflozina e o tratamento padrão por até 14 dias ou apenas o tratamento padrão. O desfecho primário é um composto hierárquico de mortalidade hospitalar, início de terapia renal substitutiva e tempo de internação na unidade de terapia intensiva, até 28 dias. O monitoramento da segurança será rigoroso durante todo o estudo. Conclusão: O DEFENDER é o primeiro estudo desenvolvido para investigar o uso de um inibidor do cotransportador de sódio-glicose do tipo 2 em pacientes de unidade de terapia intensiva geral com disfunção orgânica aguda. O estudo fornecerá informações relevantes sobre o uso de medicamentos dessa classe promissora em pacientes críticos. Registro ClincalTrials.gov: NCT05558098
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VCystinuria is an inherited metabolic disorder progressing with recurrent kidney stones due to impaired reabsorption of dibasic amino acids and arises from mutations in the SLC3A1 and SLC7A9 on chromosome 2. Here, we present the case of a 1-year 10-month-old male child with recurrent episodes of urinary tract infections. On evaluation, duplex kidneys and a large bladder calculus were found which was surgically managed. Stone analysis and the genetic study were suggestive of cystinuria.
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SUMMARY OBJECTIVE: Glucose transporter-1 is a marker involved in energy transport in cancer cells. It has been shown to be a poor prognostic factor in many cancer types, including breast cancer. However, there is no satisfactory parameter predicting treatment in breast cancer patients receiving neoadjuvant therapy. This study investigated the effect of glucose transporter-1 in predicting the treatment response of patients receiving neoadjuvant therapy. METHODS: In this study, glucose transporter-1 immunohistochemistry was applied to tru-cut biopsy of patients who were diagnosed with breast cancer and received neoadjuvant therapy between 2010 and 2021. A built-in scoring system was used to evaluate both the pattern and intensity of glucose transporter-1 immunohistochemistry staining. The relationship between glucose transporter-1 immunohistochemistry staining and other clinicopathological parameters was examined. In addition, the relationship of glucose transporter-1 with response to treatment was investigated. RESULTS: A relationship was found between high glucose transporter-1 expression and other clinicopathological parameters (such as estrogen and progesterone receptor negativity, high Ki-67, triple-negative, and Her2 status). Cases with high glucose transporter-1 expression had either a complete or a partial pathologic response. The result was statistically significant. CONCLUSION: Glucose transporter-1 has the potential to be a biomarker that can be evaluated more objectively as an alternative to Ki-67 labeling index in evaluating the response to treatment in patients receiving neoadjuvant therapy.
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El síndrome de deficiencia del transportador de glucosa tipo 1 es una enfermedad de causa genética, que involucra el gen SLC2A1. En general, se presenta durante los primeros años de vida con retraso en la adquisición de pautas madurativas, epilepsia farmacorresistente y desórdenes del movimiento. La clínica y la disminución de glucosa en líquido cefalorraquídeo permiten sospechar el diagnóstico, el cual debe ser confirmado mediante el estudio molecular del gen SLC2A1. Debido a que se trata de una enfermedad poco frecuente y de expresión clínica variable, el diagnóstico precoz suele representar un desafío para los equipos de salud. Este es importante, ya que la implementación de la terapia cetogénica logra controlar las manifestaciones clínicas y mejora el pronóstico a largo plazo. Presentamos una revisión sobre el déficit del transportador de glucosa tipo 1, que abarca sus características clínicas, bioquímicas, moleculares y terapéuticas.
Glucose transporter type 1 deficiency with a typical onset is a genetic disorder associated with the SLC2A1 gene. Usually appears during the first years of life with severe developmental delay, drugresistant epilepsy, and movement disorders. Diagnosis is suspected based on clinical manifestations and a low glucose level in cerebrospinal fluid, and should be confirmed by the molecular genetic study of the SLC2A1 gene. As it is a rare disease with variable clinical expression, early diagnosis is often challenging for the healthcare team. Nevertheless, this is important because early implementation of ketogenic therapy will lead to control of the clinical manifestations and a better long-term prognosis. Here we review the glucose transporter type 1 deficiency syndrome focusing on its clinical, biochemical, molecular, and therapeutic characteristics.
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Humans , Carbohydrate Metabolism, Inborn Errors/diagnosis , Carbohydrate Metabolism, Inborn Errors/genetics , Carbohydrate Metabolism, Inborn Errors/therapy , Monosaccharide Transport Proteins/genetics , Epilepsy/diagnosis , Epilepsy/genetics , MutationABSTRACT
The review summarizes the kidney protective mechanism of sodium-glucose-coupled transporter 2 inhibitors and their efficacy and safety for diabetic recipients of kidney transplantation.It is intended to improve patient outcomes.
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Objective:To determine the expression of glucose transporter 3 (GLUT3) in cutaneous squamous cell carcinoma (cSCC), and to evaluate its effect on the cSCC cell line A431.Methods:From June 2016 to December 2020, 22 paraffin-embedded tissue specimens were collected from patients with pathologically confirmed cSCC in the Department of Dermatology, Peking University Third Hospital, and 20 discarded normal skin tissues after dermatological surgeries served as controls. Immunohistochemical assay was performed to determine the GLUT3 expression in cSCC tissues and normal skin tissues. Cultured A431 cells were divided into two groups: GLUT3 overexpression group transfected with a lentiviral vector carrying the SLC2A3 gene, and negative control group transfected with an empty lentiviral vector. Real-time fluorescence-based quantitative PCR and Western blot analysis were conducted to determine the mRNA and protein expression of GLUT3 in A431 cells in different groups, the cell proliferation assay (MTS assay) was performed to estimate the cell proliferative activity, and the live-cell analysis system Incucyte S3 was used for real-time evaluation of the migratory and invasive abilities of A431 cells in different groups. The relative glucose consumption and lactic acid production in A431 cells at 48 hours were measured by using glucose and lactic acid assay kits, retrospectively. Two independent samples t-test was used for comparisons between two groups, and one-way analysis of variance was used for comparisons among multiple groups. Results:The GLUT3 expression was significantly higher in the cSCC tissues than in the normal skin tissues (immunohistochemical assay score: 9.39 ± 2.56 points vs. 2.30 ± 2.60 points; t = 8.91, P < 0.05). Compared with the negative control group, the mRNA and protein expression of GLUT3 markedly increased in the GLUT3 overexpression group. MTS assay showed significantly increased proliferative activity of A431 cells in the GLUT3 overexpression group compared with the negative control group after 24- and 96-hour treatment ( t = 2.49, 3.54, P = 0.048, 0.012, respectively); cell fusion rates in the scratched area were significantly higher in the GLUT3 overexpression group than in the negative control group in the cell migration assay at 6, 12 18, and 24 hours and cell invasion assay at 12, 18, and 24 hours (all P < 0.05). At 48 hours, the relative glucose consumption and lactic acid production in A431 cells were significantly higher in the GLUT3 overexpression group than in the negative control group ( t = 2.98, 2.20, P = 0.011, 0.038, respectively) . Conclusion:GLUT3 was highly expressed in the cSCC tissues, and may participate in the occurrence and development of cSCC by providing energy to cSCC cells via promoting glucose uptake in cells to enhance their proliferative, migratory and invasive abilities.
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Sodium-dependent glucose transporter 2 inhibitors(SGLT2i)are a new class of glucose-lowering drugs, can reduce blood sugar by inhibiting the reabsorption of glucose at the proximal tubule and are widely used in clinical treatment of type 2 diabetes.SGLT2i can not only lower blood sugar, but also offer multiple cardiovascular benefits.Several large randomized controlled trials have confirmed the safety and efficacy of SGLT2i for heart failure with preserved ejection fraction(HFpEF). Herein, we present an overview on advances in SGLT2i for HFpEF.
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Objective:To investigate the effects and mechanisms of copper transporter 1 (CTR1) in radiation induced intestinal injury in vitro. Methods:Human small intestinal epithelial cells (HIEC) were irradiated with 2, 4, 6, 8 Gy of X-rays and rat intestinal epithelial cells (IEC-6) were irradiated with 5, 10, 15, 20 Gy of X-rays. At 2, 4, 8, 24, and 48 h after irradiation, the expression of CTR1 was detected by Western blot assay. In some experiments, HIEC and IEC-6 cells were transfected with CTR1 shRNA and then exposed to X-rays. Copper levels were detected by Inductively Coupled Plasma Mass Spectrometry (ICP-MS). The radiosensitivity of cells was verified by colonogenic assay, the cellular reactive oxygen species (ROS) level and DNA damage were detected to further explore the related mechanism. In addition, Western blot was applied to detect the expressions of antioxidants and cuproptosis associated proteins in enterocytes after silencing CTR1 or irradiation.Results:The expression of CTR1 was increased by X-ray irradiation in a dose-dependent manner ( t=3.53, 3.45, 6.37, 11.11, 11.13, P<0.05). CTR1 expression was successfully diminished by CTR1 shRNA adenovirus vectors. According to the survival curves, the enhancement ratios of the radiosensitivity of HIEC and IEC-6 cells with CTR1 knocking-down were 1.146 and 1.201, respectively. Radiation-induced copper accumulation was alleviated after CTR1 silencing in IEC-6 cells ( t=3.10, P<0.05). At 0.5 h after irradiation, the ROS production in the CTR1 knockdown group was significantly lower than that in the control group ( t=5.23, 2.96, P<0.05). At 1 h after irradiation, the protein expression of γ-H2AX in the CTR1 knockdown group was obviously lower than that in the control group ( t=7.50, 4.29, P<0.05). The expressions of Nrf2 and HO-1 were increased after irradiation, which could be further increased after CTR1 silencing. In addition, cuproptosis associated protein DLAT, LIAS and FDX1 were reduced post-irradiation, which were recovered after CTR1 silencing. Conclusions:The radioresistance of HIEC and IEC-6 cells was enhanced after CTR1 silencing, possibly through the intracellular ROS and cuproptosis pathway.
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Glucose transporter 1(GLUT1)overexpression in tumor cells is a potential target for drug therapy,but few studies have reported screening GLUT1 inhibitors from natural or synthetic compounds.With cur-rent analysis techniques,it is difficult to accurately monitor the GLUT1 inhibitory effect of drug molecules in real-time.We developed a cell membrane-based glucose sensor(CMGS)that integrated a hydrogel electrode with tumor cell membranes to monitor GLUT1 transmembrane transport and screen for GLUT1 inhibitors in traditional Chinese medicines(TCMs).CMGS is compatible with cell membranes of various origins,including different types of tumors and cell lines with GLUT1 expression knocked down by small interfering RNA or small molecules.Based on CMGS continuous monitoring technique,we inves-tigated the glucose transport kinetics of cell membranes with varying levels of GLUT1 expression.We used CMGS to determine the GLUT1-inhibitory effects of drug monomers with similar structures from Scutellaria baicalensis and catechins families.Results were consistent with those of the cellular glucose uptake test and molecular-docking simulation.CMGS could accurately screen drug molecules in TCMs that inhibit GLUT1,providing a new strategy for studying transmembrane protein-receptor interactions.
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Attention deficit hyperactivity disorder (ADHD) is a common neurodevelopmental disorder in childhood, which seriously affects physical and mental health in children.Its etiology and pathogenesis are complex and have not been fully elucidated.Currently, the theory of Dopamine (DA) deficits has been widely recognized and studied in the international academic community.The DA system is considered as the key to the pathogenesis of ADHD.The causes of DA deficits are complex.In addition to the well-established reuptake disorder caused by abnormal DA transporter function, DA deficits are also associated with the activation of DA vesicle cycle enzymatic inactivation, vesicle transport dysfunction, and receptor dysfunction, which are of great significance in analyzing disease pathogenesis and drug development.This article reviews the research on the causes of DA deficits proposed in recent years based on the theory of DA deficits, aiming to provide ideas and references for the research on the pathogenesis of ADHD in China.
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Pendrin is an electroneutral anion exchanger transporter, residing in the apical region of airway epithelium cells.It is responsible for the reabsorption of chloride(Cl -) and the exchange of bicarbonate(HCO 3-)or thiocyanate(SCN -) to the lumen.It is mainly involved in regulating the pH and thickness of airway surface liquid(ASL), mucin secretion, and airway defense, which is of great significance for maintaining the stability of the airway surface microenvironment.The expression of pendrin is significantly up-regulated in bronchial asthma, which is closely related to the pathological processes of the lung in bronchial asthma, such as airway hyperresponsiveness, neutrophil infiltration, and increased mucin secretion.Inhibiting the function of pendrin may be a new target for the treatment of bronchial asthma.
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The function of the central nervous system was significantly altered under high-altitude hypoxia, and these changes lead to central nervous system disease and affected the metabolism of drugs in vivo. The blood-brain barrier is essential for maintaining central nervous system stability and plays a key role in the regulation of drug metabolism, and barrier structure and dysfunction affect drug transport to the brain. Changes in the structure and function of the blood-brain barrier and the transport of drugs across the blood-brain barrier under high-altitude hypoxia are regulated by changes in brain microvascular endothelial cells, astrocytes and pericytes, and are regulated by drug metabolism factors such as drug transporters and drug metabolizing enzymes. This article reviews the effects of high-altitude hypoxia on the structure and function of the blood-brain barrier and the effects of changes in the blood-brain barrier on drug metabolism. We investigate the regulatory effects and underlying mechanisms of the blood-brain barrier and related pathways such as transcription factors, inflammatory factors and nuclear receptors on drug transport under high-altitude hypoxia.
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Glucose transporters (GLUTs) encoded by the solute carrier family 2 (SLC2) gene belong to the major facilitator superfamily (MFS) and are responsible for the transmembrane transport of glucose in the body. As the earliest discovered member of the GLUTs, glucose transporter 1 (GLUT1) is mainly found in the blood-brain barrier and erythrocyte membrane, and plays an important role in maintaining stable blood glucose concentration and energy supply to the brain. The transmembrane transport capacity of GLUT1 is not only related to the gene expression of SLC2 A1 on the cellular membrane, but also to the transport kinetic regulation of GLUT1. Generally, SLC2 A1 expression is regulated at the transcriptional, post-transcriptional, translational and post-translational levels, and the transport kinetics regulation includes a series of GLUT1 inhibitors, such as intramembrane glycan-binding site inhibitor, extramembrane glycan-binding site inhibitor, adenosine-binding effect inhibitors and the highly selective inhibitor BAY-876. SLC2 A1 gene deletions and mutations can cause embryonic mortality and GLUT1 deficiency syndrome. In contrast, abnormally high SLC2 A1 expression is associated with various diabetic complications (e. g. diabetic retinopathy and diabetic nephropathy), neurocognitive impairment and tumorigenesis. In this paper, the structure, function, expression and activity regulation of GLUT1 and its relationship with diseases were reviewed to provide a reference for the GLUT1-related clinical research and drug development.
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Aim To examine the effect of peptide P3 on lipid accumulation in RAW264.7 cells and the underlying molecular mechanism. Methods MTT method was used to screen the concentration of peptide P3 and oxidized low density lipoprotein(ox-LDL),and RAW.264.7 cells were induced to form foam cells by ox-LDL with 80 mg·L