Biological Connotation of Pathogenesis of Colorectal Cancer Due to Damp-heat Accumulation Based on Immune Response-intestinal Microbial Axis / 中国实验方剂学杂志

Colorectal cancer （CRC） is a malignant tumor of the intestinal tract with changes in bowel habits， blood in the stool， and pain as the main clinical manifestations. With the change in lifestyle and diet structure in recent years， the incidence of CRC has been increasing year by year. The pathogenesis of CRC is closely related to abnormal immune response and chronic inflammation， intestinal microbial dysbiosis， and the production of oncogenic metabolites. There is a two-way communication between the intestinal microbiota and the body's immunity， which not only plays a key role in maintaining the body's health but also has a close relationship with the development of diseases. An increasing number of studies have shown that abnormal immune responses accelerate the disease process by producing inflammatory factors， causing chronic inflammation in the body， disrupting the intestinal mucosal barrier， and increasing mucosal permeability， thus resulting in dysbiosis of the intestinal microbial ecology and a large number of pathogenic microorganisms and their metabolites. In addition， dysbiosis of intestinal microbes， by suppressing the normal immune response， leads to the disruption of multiple metabolic pathways in the body， affecting the internal and external stress response of the intestine， inducing inflammation， and thus producing disease. Therefore， the complex crosstalk mechanism between the immune response and intestinal microbial axis is closely related to the development of CRC. Based on traditional Chinese medicine theory and clinical research， it was found that dietary factors are an important causative factor in the development of CRC. The deficiency of positive energy is the root cause of the disease， and damp-heat accumulation is the key pathogenesis. Through modern medical and biological research， it is believed that abnormal immune response is the microscopic manifestation of damp-heat entrapment， while intestinal microbial dysbiosis is the biological basis of toxic injection into the large intestine， and in the pathogenesis of CRC， the imbalance of immune response-intestinal microbial axis is compatible with damp-heat accumulation in traditional Chinese medicine. This study aims to explore the biological connotation of CRC due to damp-heat accumulation from the immune response-intestinal microbial axis， so as to interpret the pathogenesis of CRC due to damp-heat accumulation with objective data and provide new ideas and theoretical basis for the pathogenesis and treatment strategies of CRC due to damp-heat accumulation.

Exploratory research on the probable shared molecular mechanism and transcription factors between chronic periodontitis and chronic obstructive pulmonary disease / 华西口腔医学杂志

OBJECTIVES@#To investigate possible cross-talk genes, associated pathways, and transcription factors between chronic periodontitis (CP) and chronic obstructive pulmonary disease (COPD).@*METHODS@#The gene expression profiles of CP (GSE10334 and GSE16134) and COPD (GSE76925) were downloaded from the GEO database. Differential expression and functional clustering analyses were performed. The protein‑protein interaction (PPI) network was constructed. The core cross-talk genes were filtered using four topological analysis algorithms and modular segmentation. Then, functional clustering analysis was performed again.@*RESULTS@#GSE10334 detected 164 differentially expressed genes (DEGs) (119 upregulated and 45 downregulated). GSE16134 identified 208 DEGs (154 upregulated and 54 downregulated). GSE76925 identified 1 408 DEGs (557 upregulated and 851 downregulated). The PPI network included 21 nodes and 20 edges. The final screening included seven cross-talk genes: CD79A, FCRLA, CD19, IRF4, CD27, SELL, and CXCL13. Relevant pathways included primary immunodeficiency, the B-cell receptor signaling pathway, and cytokine-cytokine receptor interaction.@*CONCLUSIONS@#This study indicates the probability of shared pathophysiology between CP and COPD, and their cross-talk genes, associated pathways, and transcription factors may offer novel concepts for future mechanistic investigations.

The role and regulatory mechanism of tissue and organ crosstalk on skeletal muscle development: a review / 生物工程学报

Skeletal muscle is one of the most important organs in animal, and the regulatory mechanism of skeletal muscle development is of great importance for the diagnosis of muscle-related diseases and the improvement of meat quality of livestock. The regulation of skeletal muscle development is a complex process, which is regulated by a large number of muscle secretory factors and signaling pathways. In addition, in order to maintain steady-state and maximum use of energy metabolism in the body, the body coordinates multiple tissues and organs to form the complex and sophisticated metabolic regulation network, which plays an important role for the regulation of skeletal muscle development. With the development of omics technologies, the underlying mechanism of tissue and organ communication has been deeply studied. This paper reviews the effects of crosstalk among adipose tissue, nerve tissue and intestinal tissue on skeletal muscle development, with the aim to provide a theoretical basis for targeted regulation of skeletal muscle development.

Research advances on extracellular vesicles-based regulation by traditional Chinese medicines and the relationship with TCM "Qi" / 药学学报

Extracellular vesicles (EVs) are an important type of active microvesicles. EVs encapsulate and transfer functional substances such as miRNAs, transcription factors and proteins, which are important vectors for cell communication and organ dialogue. In recent years, studies have shown that quite a number of Chinese medicinal herbs have the pharmacological effect of regulating EVs, and play a unique trans-organ and remote role in the treatment of diseases. Some Chinese medicinal herbs also contain plant-derived EVs themselves, which can be directly involved in the treatment of diseases. As one of the core theories of raditional Chinese medicines (TCM), Qi plays a variety of important roles in the physiological and pathological processes of human body and pharmacology. However, the scientific connotation of Qi′s role and the potential material carrier are still unclear. The latest research suggests that the effect of EVs is potentially related to that of Qi. Therefore, this paper reviews the effect of Qi nourishing Chinese medicinal herbs in regulating EVs in the treatment of cardiovascular diseases, nervous system diseases, liver diseases, renal diseases, malignant tumors and other diseases in recent years. EVs may play an important role in the pharmacological effect of some Chinese medicinal herbs in the treatment of diseases as an intermediary substance. EVs have the characteristics of long-distance transportation, which is consistent with the movement of Qi in TCM. EVs carry a variety of functional molecules, which is consistent with the function of Qi. As the potential material basis of Qi in TCM, the function of EVs is worth further study.

Exploring Synergistic Mechanism of Vinegar-processed Olibanum in Treatment of Ulcerative Colitis Based on Bile Acid-regulated "Gut-liver" Crosstalk / 中国实验方剂学杂志

ObjectiveTo investigate the synergistic mechanism of vinegar-processed Olibanum on ulcerative colitis（UC） via the bile acids regulating "gut-liver" crosstalk. MethodRats were randomly divided into normal group， model group， Olibanum group and vinegar-processed Olibanum group. UC model of rats was induced by intracolonic instillation of 2，4，6-trinitrobenzenesulfonic acid（TNBS）. Ultra high performance liquid chromatography-triple quadrupole-mass spectrometry（UPLC-QQQ-MS） was used to perform the qualitative analysis of 30 bile acids in the colon of rats. Real-time fluorescence quantitative polymerase chain reaction（Real-time PCR） and Western blot were used to detect changes in the expression of farnesoid X receptor（FXR）， fibroblast growth factor 15（FGF15） and FGF receptor 4（FGFR4） in "gut-liver" crosstalk at mRNA and protein levels. And with the help of HcoEpiC cell model intervened by conjugated bile acids， simulating the UC state， and according to the different modes of intervention， they were divided into the blank group， conjugated bile acid group， Olibanum group， vinegar-processed Olibanum group and 3-O-acetyl-9，11-dehydro-β-boswellic acid（ADHBA） group. The effect of Olibanum before and after processing with vinegar and the main differential component ADHBA on the mRNA expression of FXR and FGF19 were explored by Real-time PCR. ResultCompared with the normal group， the levels of conjugated bile acids in the model group increased significantly（P<0.01）， and the mRNA and protein expressions of "gut-liver" crosstalk factors FXR， FGF15 and FGFR4 decreased significantly（P<0.05， P<0.01）. Compared with the model group， the content of conjugated bile acids in the Olibanum group and vinegar-processed Olibanum group was significantly decreased（P<0.01）， the mRNA and protein expressions of FXR， FGF15 and FGFR4 were significantly elevated（P<0.05， P<0.01）， and vinegar-processed Olibanum exhibited superior effects than Olibanum. In cellular experiments， a significant decrease in mRNA expression of FXR and FGF19 was observed in the conjugated bile acid group when compared with the blank group（P<0.01）. Compared with the conjugated bile acid group， the mRNA expressions of FXR and FGF19 were significantly higher in the Olibanum， vinegar-processed Olibanum and ADHBA groups（P<0.05， P<0.01）， and the effect of vinegar-processed Olibanum was more favorable. ConclusionVinegar-processed Olibanum may enhance the ameliorating effect on UC by enhancing the down-regulation of conjugated bile acids in the colon and the up-regulation of FXR-FGF15/19-FGFR4 "gut-liver" crosstalk pathway， and ADHBA may be the main material basis for the synergy.

Cross-talk elimination in determination of gross α and gross β activities using a low-background α/β gas-flow proportional counter / 中国辐射卫生

Objective To explore cross-talk elimination method in the determination of gross α and gross β activities using a low-background α/β gas-flow proportional counter. Methods A CLB-104 low-background α/β gas-flow proportional counter was used in this study. First, the α threshold was increased to eliminate the cross-talk counting caused by β particles in the α channel. Then, the α-β anticoincidence threshold was reduced to eliminate the cross-talk counting induced by low-energy α particles in the β channel, and β counts were corrected to eliminate the counts induced by internal convention electrons in the β channel. Finally, gross α and gross β activities of non-saline water samples with different activity levels were determined and compared with gross α and gross β activities of the same samples determined on a BH1227 low-background α/β solid scintillation counter, in order to verify effectiveness of the cross-talk elimination method. Results By eliminating the cross-talk counts of β particles in the α channel and the cross-talk counts of α particles in the β channel, and deducting the counts of internal convention electrons in the β channel, the gross α and gross β activities of the same samples determined by CLB-104 were consistent with the values determined by BH1227. Conclusion Cross-talk counts induced by low-energy α particles or β particles can be eliminated by threshold adjustment, and the counts caused by internal convention electrons in the β channel can be eliminated by correction.

Treatment progress of triple positive breast cancer / 中国临床药理学与治疗学

Triple positive breast cancer overexpress ER (estrogen receptor), PR and HER2 (human epidermal growth factor receptor 2, HER2), accounting for about 50%-60% of the HER2 positive breast cancer patients. Based on the data from clinical trials, the crosstalk between the ER signaling pathway and the HER2 signaling pathway in triple-positive breast cancer may weaken the efficacy of anti-HER2 therapy and endocrine therapy, and this feature has attracted widespread attention. Emerging evidence shows that while blocking HER2 signaling pathway, together with enhancing blocking of ER signaling pathway, such as anti-HER2 dual-targeting + endocrine therapy ± CDK4 / 6 inhibitors, could effectively overcome drug resistance, and improve the efficacy. Predictive biomarkers including Ki67, intrinsic subtypes, and multi-gene assay, which have the potential benefit for personalized treatment.

Advances of immune-vascular crosstalk for oncology therapeutics / 中国药理学通报

Malignant tumor is one of the important reasons threatening human health and safety at present. The application of antiangiogenic drugs and immune checkpoint inhibitors has brought great hope for tumor treatment, but the complex interlaced relationship between tumor blood vessels and immune microenvironment leads to unsatisfactory efficacy. In addition,VEGF, a key driver of tumor angiogenesis, interferes with the maturation of dendritic cells, thereby inhibiting the initiation of T cells. VEGF also induces depletion of CD8+T cells. At the same time, various innate and acquired immune cells secrete angiogenic factors that accelerate uncontrolled angiogenesis and promote vascular immaturity. Therefore targeting tumor blood vessels and immunity is a potential strategy for enhancing tumor immunotherapy. In recent years numerous studies have found that using the blood vessels and the immune intervention strategies combined with antitumor immune therapy has achieved good results. In this review the immune and vascularized tumor microenvironment are reviewed and discussed, and the research progress of vascularized immune interintervention strategy for tumor treatment in recent years is reviewed so as to provide reference for further improving the efficacy of tumor immunotherapy.

El riñón en el trasplante cardíaco, relato de una travesía / The Kidney in Heart Transplantation, Tale of a Journey

RESUMEN La intención de esta actualización es destacar la relación que se establece entre el corazón y el riñón a lo largo de toda la travesía que implica un trasplante cardíaco. Frente al mismo, el sistema cardiovascular y el renal se comportan como compañeros de un viaje que, a veces, es difícil determinar cuándo comienza, y que los obliga a superar diferentes obstáculos, como los cambios hemodinámicos, la respuesta neurohumoral e inflamatoria, la injuria quirúrgica, la reacción inmunológica y la toxicidad medicamentosa. Esta relación puede verse como una aventura que indefectiblemente deben compartir. En este viaje trataremos de acompañar a ambos órganos, pero fijando la atención especialmente en el riñón, y describir las conexiones, mecanismos de protección y de perjuicio que se generan a lo largo del recorrido. En la travesía podemos reconocer respuestas solidarias, para sostener el equilibrio entre ambos sistemas, pero en ese intento de protección se producen daños colaterales.

ABSTRACT The aim of this update is to highlight the relationship between the heart and the kidney throughout the entire journey involved in heart transplantation. Faced with heart transplantation, the cardiovascular and renal systems behave as mates of a journey that, at times, is difficult to determine when it starts, and that forces them to overcome different obstacles, such as hemodynamic changes, neurohumoral and inflammatory response, surgical injury, immune reaction, and drug toxicity. This relationship can be seen as an adventure that they must inevitably share. We will try to accompany both organs in this journey, but paying special attention to the kidney, describing the associations and the protection and damage mechanisms that are generated throughout its course. In this journey we can recognize solidarity responses to maintain the balance between both systems, but in this attempt to protect, collateral injury occurs.

Potential Mechanism of Shenling Baizhusan in Disease Treatment： A Review / 中国实验方剂学杂志

Shenling Baizhusan is a traditional Chinese medicine compound prescription formulated on the basis of Si Junzitang （Ginseng Radix et Rhizoma， Atractylodis Macrocephalae Rhizoma， Poria， Glycyrrhizae Radix et Rhizoma）. It has excellent functions of replenishing Qi， invigorating spleen， draining dampness， and checking diarrhea， and is one of the classical prescriptions of ''reinforcing earth to generate metal''. This prescription is primarily used in clinical practice to treat malnutrition in children， chronic diarrhea， gastrointestinal dysfunction， and other disorders. In addition， it has a good effect on gastrointestinal adverse reactions associated with radiotherapy and chemotherapy. With the booming of molecular biology， researchers have revealed the role of Shenling Baizhusan in the treatment of diseases， especially the mechanism of regulating different signaling pathways. We retrieved 26 relevant papers （4 written in English and 22 in Chinese） published in recent 5 years from 6 databases including China National Knowledge Infrastructure （CNKI）， Wanfang Data， VIP， PubMed， Cochrance Library， and Excerpta Medica Database （Embase）. On the basis of these papers， we summarized the mechanisms of Shenling Baizhusan in disease treatment. In the animal model of inflammatory bowel disease， Shenling Baizhusan can protect gastrointestinal mucosa by regulating the activation of nuclear factor kappa-B （NF-κB）， mitogen-activated protein kinase （MAPK）， Janus kinase/signal transducer and activator of transcription （JAK/STAT）， and myosin light chain kinase-myosin light chain （MLCK-MLC） signaling pathways. In the animal model of non-alcoholic fatty liver disease， Shenling Baizhusan regulates the activation of phosphoinositide 3-kinase/protein kinase B/mammalian target of rapamycin （PI3K/Akt/mTOR） signaling pathway and Kelch-like ECH-associating protein 1/NF-E2-related factor 2/advanced glycation end-products （KEAP1/NRF2/AREs） signaling pathway， thus alleviating the lipid metabolism disorder induced by high-fat diet and reducing liver lipid accumulation and inflammatory response. In the animal model of lung cancer with bone metastasis， Shenling Baizhusan regulates the activation of PI3K/Akt/mTOR signaling pathway， thus playing an analgesic role. By summarizing the mechanisms of Shenling Baizhusan in treatment of different disease models from signaling pathways， we aim to provide clues for the in-depth study of this prescription.

The Regulatory Network on Acetylation of the Tumor Suppressor p53 / 中国生物化学与分子生物学报

p53 represents one of the most important tumor suppressors in mammalian cells, and the posttranslational modifications (PTMs) serve as a major strategy for fine-tuning of the functions of p53 in cells. Particularly, the acetylation regulates either the overall transactivity of p53 or the p53-dependent transcriptional selectivity, which plays key roles in modulating a variety of biological processes including cell cycle arrest, apoptosis, senescence, autophagy, and metabolism. This review, starting with the timeline of the researches on p53 acetylation, firstly summarizes how the site-specific acetylation of p53 is built up, including the acetyltransferases that catalyze p53 acetylation and their regulatory mechanism that influencing p53 functions. Secondly, this review summarizes pivotal deacetylases that erase p53 acetylation, and their contributions in modulating p53 cellular activities. Additionally, this review summarizes the reader proteins that specifically recognize and bind to acetylated/ unacetylated residues of p53, and their intimate interactions with p53 in manipulating downstream targets transcriptions. Meanwhile, this review sums up the crosstalk mechanisms between the acetylation and other PTMs in regulating p53 biological functions. Lastly, this review proposes a perspective on the studies of p53 acetylation in the field of molecular biomedicine in future.

Apoptotic and autophagic death union by Thuja occidentalis homeopathic drug in cervical cancer cells with thujone as the bioactive principle / 中西医结合学报

OBJECTIVE@#"Multi-targeting" drugs can prove fruitful to combat drug-resistance of multifactorial disease-cervical cancer. This study envisioned to reveal if Thuja homeopathic mother tincture (MT) and its bioactive component could combat human papillomavirus (HPV)-16-infected SiHa cervical cancer cells since it is globally acclaimed for HPV-mediated warts.@*METHODS@#Thuja MT was studied for its antiproliferative and antimigratory properties in SiHa cells followed by microscopic determination of reactive oxygen species (ROS) generation by 2',7'-dichlorodihydrofluorescein diacetate (DCFDA) staining and loss in mitochondrial membrane potential (MtMP) by rhodamine 123 (Rh123) staining. Apoptosis and autophagy inductions were studied by acridine orange/ethidium bromide (AO/EB) staining and immunoblot analyses of marker proteins. The bioactive component of Thuja MT detected by gas chromatography-mass spectrometry was studied for antiproliferative and antimigratory properties along with in silico prediction of its cellular targets by molecular docking and oral drug forming competency.@*RESULTS@#Thuja MT showed significant antiproliferative and antimigratory potential in SiHa cells at a 50% inhibitory concentration (IC50) of 17.3 µL/mL. An increase in DCFDA fluorescence and loss in Rh123 fluorescence prove that Thuja MT acted through the burst of ROS and loss in MtMP respectively. AO/EB-stained cells under the microscope and immunoblot analyses supported Thuja-induced cellular demise via dual pathways-apoptosis and autophagy. Immunoblots showed cleavage of caspase-3 and poly(adenosine diphosphate-ribose) polymerase-1 (PARP-1) along with upregulation of Beclin-1, microtubule-associated protein 1 light chain 3B (LC3B)-II, and p62 proteins. Hence, the apoptotic cascade followed a caspase-3-dependent pathway supported by PARP-1 cleavage, while autophagic death was Beclin-1-dependent and mediated by accumulation of LC3BII and p62 proteins. Thujone, detected as the bioactive principle of Thuja MT, showed greater anti-proliferative and anti-migratory potential at an IC50 of 77 µg/mL, along with excellent oral drug competency with the ability for gastrointestinal absorption and blood-brain-barrier permeation with nil toxicity. Molecular docking depicted thujone with the strongest affinity for mammalian target of rapamycin, phosphoinositide 3-kinase, and protein kinase B followed by B-cell lymphoma 2, murine double minute 2 and adenosine monophosphate-activated protein kinase, which might act as upstream triggers of apoptotic-autophagic crosstalk.@*CONCLUSION@#Robust "multi-targeting" anticancer potential of Thuja drug and thujone for HPV-infected cervical cancer ascertained its therapeutic efficacy for HPV infections.

Blocking the JAK2/STAT3 and ERK pathways suppresses the proliferation of gastrointestinal cancers by inducing apoptosis / 浙江大学学报（英文版）（B辑：生物医学和生物技术）

Dysregulated crosstalk between different signaling pathways contributes to tumor development, including resistance to cancer therapy. In the present study, we found that the mitogen-activated extracellular signal-regulated kinase (MEK) inhibitor trametinib failed to suppress the proliferation of PANC-1 and MGC803 cells by activating the Janus kinase 2 (JAK2)/signal transducer and activator of transcription 3 (STAT3) signaling pathway, while the JAK2 inhibitor fedratinib failed to inhibit the growth of the PANC-1 cells upon stimulation of extracellular signal-regulated kinase (ERK) signaling. In particular, the most prominent enhancement of the anti-proliferative effect resulted from the concurrent blockage of the JAK2/STAT3 and ERK signaling pathways. Furthermore, the combination of the two inhibitors resulted in a reduced tumor burden in mice. Our evidence suggests novel crosstalk between JAK2/STAT3 and ERK signaling in gastric cancer (GC) and pancreatic ductal adenocarcinoma (PDAC) cells and provides a therapeutic strategy to overcome potential resistance in gastrointestinal cancer.

Determinants of bone health in elderly Japanese men: study design and key findings of the Fujiwara-kyo Osteoporosis Risk in Men (FORMEN) cohort study

BACKGROUND@#The Fujiwara-kyo Osteoporosis Risk in Men (FORMEN) study was launched to investigate risk factors for osteoporotic fractures, interactions of osteoporosis with other non-communicable chronic diseases, and effects of fracture on QOL and mortality.@*METHODS@#FORMEN baseline study participants (in 2007 and 2008) included 2012 community-dwelling men (aged 65-93 years) in Nara prefecture, Japan. Clinical follow-up surveys were conducted 5 and 10 years after the baseline survey, and 1539 and 906 men completed them, respectively. Supplemental mail, telephone, and visit surveys were conducted with non-participants to obtain outcome information. Survival and fracture outcomes were determined for 2006 men, with 566 deaths identified and 1233 men remaining in the cohort at 10-year follow-up.@*COMMENTS@#The baseline survey covered a wide range of bone health-related indices including bone mineral density, trabecular microarchitecture assessment, vertebral imaging for detecting vertebral fractures, and biochemical markers of bone turnover, as well as comprehensive geriatric assessment items. Follow-up surveys were conducted to obtain outcomes including osteoporotic fracture, cardiovascular diseases, initiation of long-term care, and mortality. A complete list of publications relating to the FORMEN study can be found at https://www.med.kindai.ac.jp/pubheal/FORMEN/Publications.html .

Metabolic module identification and biological mechanism of Xiaoyaosan for treatment of depression / 药学学报

The antidepressant effect of Xiaoyaosan has been demonstrated. It is of value to explore the biological mechanism of Xiaoyaosan in the treatment of depression from the perspective of functional modules by using the method of functional module division of the metabolic network. The differential metabolites and related enzymes and proteins regulated by Xiaoyaosan were identified in the database. Pathway enrichment analysis and crosstalk pathway analysis of Xiaoyaosan regulated metabolites was carried out. A network of differentially regulated metabolites and their enzymes and proteins was constructed by using the STRING tool. The CNM decomposition algorithm was used to extract the functional modules of the network and enrichment analysis of functional modules was carried out. The results show that Xiaoyaosan regulates 97 differential metabolites, 234 related enzymes and 258 depression-related proteins. The pathways crosstalk analysis was divided into two sub-networks, one of which is related to the neural system and cell signal transduction, the other is related to the endocrine system and metabolic pathways. KEGG pathway enrichment analysis of the network and 9 functional modules extracted by the CNM algorithm shows that module 1 and module 3 belong to the pathways that can be enriched into more pathways with fewer proteins. The corresponding functions of these pathways include the endocrine system, amino acid metabolism, the nervous system and signal transduction. In this study, pathway crosstalk analysis and metabolic network module division strategies were used to explain the biological mechanism of Xiaoyaosan in the treatment of depression, providing ideas and methods for in-depth study of the pharmacological mechanism of this traditional Chinese medicine from the perspective of metabolic regulation.

Effect of isopentenyl pyrophosphate translocation on the biosynthesis of triptolide / 生物工程学报

Triptolide has wide clinical applications due to its anti-inflammatory, anti-tumor and immunosuppressive activities. In this study, we investigated the effect of blocking isopentenyl pyrophosphate (IPP) translocation on the biosynthesis of triptolide by exogenously adding D,L-glyceraldehyde (DLG) to the suspension cells of Ttripterygium wilfordii at different stages (7 d, 14 d). Subsequently, the cell viability, biomass accumulation, triptolide contents, as well as the profiles of the key enzyme genes involved in the upstream pathway of triptolide biosynthesis, were analyzed. The results showed that IPP translocation is involved in the biosynthesis of triptolide. IPP is mainly translocated from the plastid (containing the MEP pathway) to the cytoplasm (containing the MVA pathway) in the early stage of the culture, but reversed in the late stage. Blocking the translocation of IPP affected the expression of key enzyme genes involved in the upstream pathway of triptolide, which in turn affected the accumulation of triptolide. Understanding the characteristics and mechanism of IPP translocation provides a theoretical basis for further promoting triptolide biosynthesis through synthetic biology.

Manipulation of immune‒vascular crosstalk: new strategies towards cancer treatment

Tumor vasculature is characterized by aberrant structure and function, resulting in immune suppressive profiles of tumor microenvironment through limiting immune cell infiltration into tumors, endogenous immune surveillance and immune cell function. Vascular normalization as a novel therapeutic strategy tends to prune some of the immature blood vessels and fortify the structure and function of the remaining vessels, thus improving immune stimulation and the efficacy of immunotherapy. Interestingly, the presence of "immune‒vascular crosstalk" enables the formation of a positive feedback loop between vascular normalization and immune reprogramming, providing the possibility to develop new cancer therapeutic strategies. The applications of nanomedicine in vascular-targeting therapy in cancer have gained increasing attention due to its specific physical and chemical properties. Here, we reviewed the recent advances of effective routes, especially nanomedicine, for normalizing tumor vasculature. We also summarized the development of enhancing nanoparticle-based anticancer drug delivery

Metabolic Crosstalk between the Heart and Fat

It is now recognized that the heart can behave as a true endocrine organ, which can modulate the function of other tissues. Emerging evidence has shown that visceral fat is one such distant organ the heart communicates with. In fact, it appears that bi-directional crosstalk between adipose tissue and the myocardium is crucial to maintenance of normal function in both organs. In particular, factors secreted from the heart are now known to influence the metabolic activity of adipose tissue and other organs, as well as modulate the release of metabolic substrates and signaling molecules from the periphery. This review summarizes current knowledge regarding primary cardiokines and adipokines involved in heart-fat crosstalk, as well as implications of their dysregulation for cardiovascular health.

Neurogenic stress cardiomyopathy: What do we need to know

The interaction between the heart and brain is complex and integral to the maintenance of normal cardiovascular function. Even in the absence of coronary disease, acute neuronal injury can induce a variety of cardiac changes. Recent neuroimaging data revealed a network including the insular cortex, anterior cingulate gyrus, and amygdala playing a crucial role in the regulation of central autonomic nervous system. Damage in these areas has been associated with arrhythmia, myocardial injury, higher plasma levels of brain natriuretic peptide, catecholamines, and glucose. Some patients after brain injury may die due to occult cardiac damage and functional impairment in the acute phase. Heart failure adversely influences acute stroke mortality. Troponin and NT-proBNP are elevated in acute brain injury patients, in response to the activated renin–angiotensin–aldosterone system and other neurohumoral changes, as a protective mechanism for sympathoinhibitory activity. Such patients have been shown to be associated with higher short- and long-term mortality. While thrombolysis, neuroprotection, and other measures, alone or in combination, may limit the cerebral damage, attention should also be directed toward the myocardial protection. Early administration of cardioprotective medication aimed at reducing increased sympathetic tone may have a role in myocardial protection in stroke patients. For a full understanding of the brain–heart control, the consequences of disruption of this control, the true incidence of cardiac effects of stroke, and the evidence-based treatment options further research are needed.

Effect of tumor-stroma crosstalk on amino acid metabolism in hepatic stellate cells / 临床肝胆病杂志

ObjectiveTo investigate the effect of tumor-stroma crosstalk on amino acid metabolism in hepatic stellate cells (HSCs). MethodsHuman hepatoma cell lines HepG2, Hep3B, and Huh7 and the HSC LX-2 were cultured separately. HSCs were cultured in HSC LX-2 conditioned medium (LX2-CM) and HepG2/Hep3B/Huh7 mixed conditioned medium (Hep-CM), respectively. The supernatants were collected and an amino acid analyzer was used to measure the change in aminogram. The t-test was used for comparison of continuous data between groups. ResultsThere was a significant change in amino acid metabolism in HSCs. Compared with the LX2-CM control group, the Hep-CM experimental group had significant reductions in the levels of citrulline (t=3.426, P=0.027), valine (t=2.892, P=0.045), isoleucine (t=4.224, P=0.013), leucine (t=4.150, P=0.014), tyrosine (t=3556, P=0.024), phenylalanine (t=4.023, P=0.016), and lysine (t=3.369, P=0.028) in cell supernatant. ConclusionTumor-stroma crosstalk can influence amino acid metabolism in HSCs in tumor microenvironment, and such change in turn makes hepatoma cells better adapted to hypoxic microenvironment.