1 6753 99 WILD TYPE HBX AND TRUNCATED HBX: PLEIOTROPIC REGULATORS DRIVING SEQUENTIAL GENETIC AND EPIGENETIC STEPS OF HEPATOCARCINOGENESIS AND PROGRESSION OF HBV-ASSOCIATED NEOPLASMS. HEPATITIS B VIRUS (HBV) IS ONE OF THE CAUSATIVE AGENTS OF HEPATOCELLULAR CARCINOMA. THE MOLECULAR MECHANISMS OF TUMORIGENESIS ARE COMPLEX. ONE OF THE HOST FACTORS INVOLVED IS APPARENTLY THE LONG-LASTING INFLAMMATORY REACTION WHICH ACCOMPANIES CHRONIC HBV INFECTION. ALTHOUGH HBV LACKS A TYPICAL VIRAL ONCOGENE, THE HBX GENE ENCODING A PLEIOTROPIC REGULATORY PROTEIN EMERGED AS A MAJOR PLAYER IN LIVER CARCINOGENESIS. HERE WE REVIEW THE TUMORIGENIC FUNCTIONS OF HBX WITH AN EMPHASIS ON WILD TYPE AND TRUNCATED HBX VARIANTS, AND THEIR ROLE IN THE TRANSCRIPTIONAL DYSREGULATION AND EPIGENETIC REPROGRAMMING OF THE HOST CELL GENOME. WE SUGGEST THAT HBX ACQUIRED BY THE HBV GENOME DURING EVOLUTION ACTS LIKE A CELLULAR PROTO-ONC GENE THAT IS ACTIVATED BY DELETION DURING HEPATOCARCINOGENESIS. THE RESULTING VIRAL ONCOGENE (V-ONC GENE) CODES FOR A TRUNCATED HBX PROTEIN THAT FACILITATES TUMOR PROGRESSION. COPYRIGHT (C) 2015 JOHN WILEY & SONS, LTD. 2016 2 4585 29 NAD(+) AND VASCULAR DYSFUNCTION: FROM MECHANISMS TO THERAPEUTIC OPPORTUNITIES. NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD(+)) IS AN ESSENTIAL AND PLEIOTROPIC COENZYME INVOLVED NOT ONLY IN CELLULAR ENERGY METABOLISM, BUT ALSO IN CELL SIGNALING, EPIGENETIC REGULATION, AND POST-TRANSLATIONAL PROTEIN MODIFICATIONS. VASCULAR DISEASE RISK FACTORS ARE ASSOCIATED WITH ABERRANT NAD(+) METABOLISM. CONVERSELY, THE THERAPEUTIC INCREASE OF NAD(+) LEVELS THROUGH THE ADMINISTRATION OF NAD(+) PRECURSORS OR INHIBITORS OF NAD(+)-CONSUMING ENZYMES REDUCES CHRONIC LOW-GRADE INFLAMMATION, REACTIVATES AUTOPHAGY AND MITOCHONDRIAL BIOGENESIS, AND ENHANCES OXIDATIVE METABOLISM IN VASCULAR CELLS OF HUMANS AND RODENTS WITH VASCULAR PATHOLOGIES. AS SUCH, NAD(+) HAS EMERGED AS A POTENTIAL TARGET FOR COMBATTING AGE-RELATED CARDIOVASCULAR AND CEREBROVASCULAR DISORDERS. THIS REVIEW DISCUSSES NAD(+)-REGULATED MECHANISMS CRITICAL FOR VASCULAR HEALTH AND SUMMARIZES NEW ADVANCES IN NAD(+) RESEARCH DIRECTLY RELATED TO VASCULAR AGING AND DISEASE, INCLUDING HYPERTENSION, ATHEROSCLEROSIS, CORONARY ARTERY DISEASE, AND AORTIC ANEURYSMS. FINALLY, WE ENUMERATE CHALLENGES AND OPPORTUNITIES FOR NAD(+) REPLETION THERAPY WHILE ANTICIPATING THE FUTURE OF THIS EXCITING RESEARCH FIELD, WHICH WILL HAVE A MAJOR IMPACT ON VASCULAR MEDICINE. 2022 3 4110 32 MECHANISMS BY WHICH PLEIOTROPIC AMPHIPHILIC N-3 PUFA REDUCE COLON CANCER RISK. COLORECTAL CANCER IS ONE OF THE MAJOR CAUSES OF CANCER-RELATED MORTALITY IN BOTH MEN AND WOMEN WORLDWIDE. GENETIC SUSCEPTIBILITY AND DIET ARE PRIMARY DETERMINANTS OF CANCER RISK AND TUMOR BEHAVIOR. EXPERIMENTAL, EPIDEMIOLOGICAL, AND CLINICAL DATA SUBSTANTIATE THE BENEFICIAL ROLE OF N-3 POLYUNSATURATED FATTY ACIDS (PUFA) IN PREVENTING CHRONIC INFLAMMATION AND COLON CANCER. FROM A MECHANISTIC PERSPECTIVE, N-3 PUFA ARE PLEIOTROPIC AND MULTIFACETED WITH RESPECT TO THEIR MOLECULAR MECHANISMS OF ACTION. FOR EXAMPLE, THIS CLASS OF DIETARY LIPID UNIQUELY ALTERS MEMBRANE STRUCTURE/ CYTOSKELETAL FUNCTION, IMPACTING MEMBRANE RECEPTOR FUNCTION AND DOWNSTREAM SIGNALING CASCADES, INCLUDING GENE EXPRESSION PROFILES AND CELL PHENOTYPE. IN ADDITION, N-3 PUFA CAN SYNERGIZE WITH OTHER POTENTIAL ANTI-TUMOR AGENTS, SUCH AS FERMENTABLE FIBER AND CURCUMIN. WITH THE RISING PREVALENCE OF DIET-INDUCED OBESITY, THERE IS ALSO AN URGENT NEED TO ELUCIDATE THE LINK BETWEEN CHRONIC INFLAMMATION IN ADIPOSE TISSUE AND COLON CANCER RISK IN OBESITY. IN THIS REVIEW, WE WILL SUMMARIZE RECENT DEVELOPMENTS LINKING N-3 PUFA INTAKE, MEMBRANE ALTERATIONS, EPIGENETIC MODULATION, AND EFFECTS ON OBESITY-ASSOCIATED COLON CANCER RISK. 2014 4 5938 25 TARGETING INDUCIBLE EPIGENETIC REPROGRAMMING PATHWAYS IN CHRONIC AIRWAY REMODELING. ALLERGIC ASTHMA IS A CHRONIC INFLAMMATORY AIRWAY DISEASE WHOSE CLINICAL COURSE IS PUNCTUATED BY ACUTE EXACERBATIONS FROM AEROALLERGEN EXPOSURE OR RESPIRATORY VIRUS INFECTIONS. AEROALLERGENS AND RESPIRATORY VIRUSES STIMULATE TOLL-LIKE RECEPTOR (TLR) SIGNALING, PRODUCING OXIDATIVE INJURY AND INFLAMMATION. REPETITIVE EXACERBATIONS PRODUCE COMPLEX MUCOSAL ADAPTATIONS, CELL-STATE CHANGES, AND STRUCTURAL REMODELING. THESE STRUCTURAL CHANGES PRODUCE SUBSTANTIAL MORBIDITY, DECREASE LUNG CAPACITY, AND IMPAIR QUALITY OF LIFE. WE WILL REVIEW RECENT SYSTEMS-LEVEL STUDIES THAT PROVIDE FUNDAMENTAL NEW INSIGHTS INTO HOW REPETITIVE ACTIVATION OF INNATE SIGNALING PATHWAYS PRODUCE EPIGENETIC 'TRAINING' TO INDUCE ADAPTIVE EPITHELIAL RESPONSES. OXIDATIVE STRESS PRODUCED DOWNSTREAM OF TLR SIGNALING INDUCES TRANSIENT OXIDATION OF GUANINE BASES IN THE REGULATORY REGIONS OF INFLAMMATORY GENES. THE EPIGENETIC MARK 8-OXOG IS BOUND BY A PLEIOTROPIC DNA REPAIR ENZYME, 8-OXOGUANINE DNA GLYCOSYLASE (OGG1), WHICH INDUCES CONFORMATIONAL CHANGES IN ADJACENT DNA TO RECRUIT THE NFKAPPAB.BROMODOMAIN-CONTAINING PROTEIN 4 (BRD4) COMPLEX. THE NFKAPPAB.BRD4 COMPLEX NOT ONLY PLAYS A CENTRAL ROLE IN INFLAMMATION, BUT ALSO TRIGGERS MESENCHYMAL TRANSITION AND EXTRACELLULAR MATRIX REMODELING. SMALL MOLECULE INHIBITORS OF OGG1-8-OXOG BINDING AND BRD4-ACETYLATED HISTONE INTERACTION HAVE BEEN DEVELOPED. WE PRESENT STUDIES DEMONSTRATING EFFICACY OF THESE IN REDUCING AIRWAY INFLAMMATION IN PRECLINICAL MODELS. TARGETING INDUCIBLE EPIGENETIC REPROGRAMMING PATHWAY SHOWS PROMISE FOR THERAPEUTICS IN REVERSING AIRWAY REMODELING IN A VARIETY OF CHRONIC AIRWAY DISEASES. 2019 5 94 35 A PLEIOTROPIC ROLE OF THE HEPATITIS B VIRUS CORE PROTEIN IN HEPATOCARCINOGENESIS. CHRONIC HEPATITIS B VIRUS (HBV) INFECTION IS ONE OF THE MOST COMMON FACTORS ASSOCIATED WITH HEPATOCELLULAR CARCINOMA (HCC), WHICH IS THE SIXTH MOST PREVALENT CANCER AMONG ALL CANCERS WORLDWIDE. HOWEVER, THE PATHOGENESIS OF HBV-MEDIATED HEPATOCARCINOGENESIS IS UNCLEAR. EVIDENCE CURRENTLY AVAILABLE SUGGESTS THAT THE HBV CORE PROTEIN (HBC) PLAYS A POTENTIAL ROLE IN THE DEVELOPMENT OF HCC, SUCH AS THE HBV X PROTEIN. THE CORE PROTEIN, WHICH IS THE STRUCTURAL COMPONENT OF THE VIRAL NUCLEOCAPSID, CONTRIBUTES TO ALMOST EVERY STAGE OF THE HBV LIFE CYCLE AND OCCUPIES DIVERSE ROLES IN HBV REPLICATION AND PATHOGENESIS. RECENT STUDIES HAVE SHOWN THAT HBC WAS ABLE TO DISRUPT VARIOUS PATHWAYS INVOLVED IN LIVER CARCINOGENESIS: THE SIGNALING PATHWAYS IMPLICATED IN MIGRATION AND PROLIFERATION OF HEPATOMA CELLS, APOPTOSIS PATHWAYS, AND CELL METABOLIC PATHWAYS INDUCING THE DEVELOPMENT OF HCC; AND THE IMMUNE SYSTEM, THROUGH THE EXPRESSION AND PRODUCTION OF PROINFLAMMATORY CYTOKINES. IN ADDITION, HBC CAN MODULATE NORMAL FUNCTIONS OF HEPATOCYTES THROUGH DISRUPTING HUMAN HOST GENE EXPRESSION BY BINDING TO PROMOTER REGIONS. THIS HBV PROTEIN ALSO PROMOTES HCC METASTASIS THROUGH EPIGENETIC ALTERATIONS, SUCH AS MICRO-RNA. THIS REVIEW FOCUSES ON THE MOLECULAR PATHOGENESIS OF THE HBC PROTEIN IN HBV-INDUCED HCC. 2021 6 6721 18 VITAMIN D RECEPTOR AGONISTS' ANTI-INFLAMMATORY PROPERTIES. ONE CENTURY AFTER ITS DISCOVERY, VITAMIN D HAS BEEN SHOWN TO BE, IN FACT, A PLEIOTROPIC STEROID HORMONE, WHICH, BESIDES REGULATION OF CALCIUM HOMEOSTASIS AND BONE TURNOVER, HAS ANTIPROLIFERATIVE, PRODIFFERENTIATION, ANTIBACTERIAL, IMMUNOMODULATORY, AND ANTI-INFLAMMATORY PROPERTIES IN VARIOUS CELLS AND TISSUES. D HORMONE (1ALPHA,25(OH)2 D), REGULATED IN AN ENDOCRINE, AUTOCRINE, AND PARACRINE MANNER, MUST BE BOUND TO THE SPECIFIC NUCLEAR VITAMIN D RECEPTOR (VDR) TO EXERT EPIGENETIC AND GENETIC EFFECTS, ACTING AS A CONNECTION BETWEEN EXTRACELLULAR STIMULI AND GENOMIC RESPONSES OF THE CELLS. SINCE ONLY HIGH DOSES OF HORMONE, PROVOKING HYPERCALCEMIA, CAN ACHIEVE IMMUNOMODULATORY EFFECTS, MORE THAN 3000 VDR AGONISTS HAVE BEEN SYNTHESIZED. NUMEROUS EXPERIMENTAL TRIALS HAVE BEEN PERFORMED IN ANIMAL MODELS, EVIDENCING THE PREVENTIVE AND THERAPEUTIC POTENTIAL OF VDR AGONISTS FOR CHRONIC INFLAMMATORY DISEASES AND CANCER. CONSIDERING THE SELECTIVE ANTI-INFLAMMATORY EFFECTS OF VDR AGONISTS COMPARED TO GLUCOCORTICOIDS, SPARING MICROBICIDAL FUNCTIONS, THE FEAR OF HYPERCALCEMIA AS THEIR ONLY FREQUENT SIDE EFFECT BECOMES A QUESTIONABLE REASON FOR THE LACK OF CLINICAL STUDIES. 2014 7 5857 27 SUBSTRATE-SPECIFIC BINDING OF 8-OXOGUANINE DNA GLYCOSYLASE 1 (OGG1) REPROGRAMS MUCOSAL ADAPTATIONS TO CHRONIC AIRWAY INJURY. RECENT ADVANCES HAVE UNCOVERED THE NON-RANDOM DISTRIBUTION OF 7, 8-DIHYDRO-8-OXOGUANINE (8-OXOGUA) INDUCED BY REACTIVE OXYGEN SPECIES, WHICH IS BELIEVED TO HAVE EPIGENETIC EFFECTS. ITS COGNATE REPAIR PROTEIN, 8-OXOGUANINE DNA GLYCOSYLASE 1 (OGG1), READS OXIDATIVE SUBSTRATES AND PARTICIPATES IN TRANSCRIPTIONAL INITIATION. WHEN REDOX SIGNALING IS ACTIVATED IN SMALL AIRWAY EPITHELIAL CELLS, THE DNA REPAIR FUNCTION OF OGG1 IS REPURPOSED TO TRANSMIT ACUTE INFLAMMATORY SIGNALS ACCOMPANIED BY CELL STATE TRANSITIONS AND MODIFICATION OF THE EXTRACELLULAR MATRIX. EPITHELIAL-MESENCHYMAL AND EPITHELIAL-IMMUNE INTERACTIONS ACT COOPERATIVELY TO ESTABLISH A LOCAL NICHE THAT INSTRUCTS THE MUCOSAL IMMUNE LANDSCAPE. IF THE TRANSITIONAL CELL STATE GOVERNED BY OGG1 REMAINS RESPONSIVE TO INFLAMMATORY MEDIATORS INSTEAD OF DIFFERENTIATION, THE COLLATERAL DAMAGE PROVIDES POSITIVE FEEDBACK TO INFLAMMATION, ASCRIBING INFLAMMATORY REMODELING TO ONE OF THE DRIVERS IN CHRONIC PATHOLOGIES. IN THIS REVIEW, WE DISCUSS THE SUBSTRATE-SPECIFIC READ THROUGH OGG1 HAS EVOLVED IN REGULATING THE INNATE IMMUNE RESPONSE, CONTROLLING ADAPTATIONS OF THE AIRWAY TO ENVIRONMENTAL AND INFLAMMATORY INJURY, WITH A FOCUS ON THE READER FUNCTION OF OGG1 IN INITIATION AND PROGRESSION OF EPITHELIAL TO MESENCHYMAL TRANSITIONS IN CHRONIC PULMONARY DISEASE. 2023 8 2500 16 EPIGENETICS AND IMPRINTED GENES: INSIGHTS FROM THE IMPRINTED GNAS LOCUS. THE HALLMARKS OF EPIGENETICS--THE MEMORY OF DEFINING EARLIER DEVELOPMENTAL EVENTS AND THE DISTINCTION OF ACTIVE AND INACTIVE GENES--ARE EXEMPLIFIED BY IMPRINTED GENES. IN THIS ARTICLE, I SHALL CONSIDER THE IMPRINTED GNAS LOCUS IN SOME DETAIL. GNAS ENCODES THE STIMULATORY G-PROTEIN SUBUNIT, GSALPHA, AN ESSENTIAL INTERMEDIATE BETWEEN RECEPTOR COUPLING AND CYCLIC ADENOSINE MONOPHOSPHATE GENERATION. IT PROVIDES AN EXCELLENT ILLUSTRATION OF THE PLEIOTROPIC EFFECTS OF IMPRINTED GENES, PARTICULARLY ON SKELETAL GROWTH AND METABOLISM, AND IS A POWERFUL EXAMPLE OF THE CONFLICTING EFFECTS OF IMPRINTED GENES WITH OPPOSING PATTERNS OF IMPRINTING. I SHALL DESCRIBE THE EFFECTS OF GSALPHA DEFICIENCY IN HUMANS AND THE KNOWLEDGE GAINED FROM GENETIC MANIPULATION IN THE MOUSE. FINALLY, GIVEN THE PERVASIVE EFFECTS OF IMPRINTED GENES, I SHALL DISCUSS THE LIKELIHOOD THAT EPIGENETIC DEREGULATION, FOR EXAMPLE OF IMPRINTED GENES, COULD CONTRIBUTE TO THE DEVELOPMENTAL PROGRAMMING OF CHRONIC ADULT DISEASES. 2009 9 5413 24 REGULATION OF CAR AND PXR EXPRESSION IN HEALTH AND DISEASE. PREGNANE X RECEPTOR (PXR, NR1I2) AND CONSTITUTIVE ANDROSTANE RECEPTOR (CAR, NR1I3) ARE MEMBERS OF THE NUCLEAR RECEPTOR SUPERFAMILY THAT MAINLY ACT AS LIGAND-ACTIVATED TRANSCRIPTION FACTORS. THEIR FUNCTIONS HAVE LONG BEEN ASSOCIATED WITH THE REGULATION OF DRUG METABOLISM AND DISPOSITION, AND IT IS NOW WELL ESTABLISHED THAT THEY ARE IMPLICATED IN PHYSIOLOGICAL AND PATHOLOGICAL CONDITIONS. CONSIDERABLE EFFORTS HAVE BEEN MADE TO UNDERSTAND THE REGULATION OF THEIR ACTIVITY BY THEIR COGNATE LIGAND; HOWEVER, ADDITIONAL REGULATORY MECHANISMS, AMONG WHICH THE REGULATION OF THEIR EXPRESSION, MODULATE THEIR PLEIOTROPIC EFFECTS. THIS REVIEW SUMMARIZES THE CURRENT KNOWLEDGE ON CAR AND PXR EXPRESSION DURING DEVELOPMENT AND ADULT LIFE; TISSUE DISTRIBUTION; SPATIAL, TEMPORAL, AND METABOLIC REGULATIONS; AS WELL AS IN PATHOLOGICAL SITUATIONS, INCLUDING CHRONIC DISEASES AND CANCERS. THE EXPRESSION OF CAR AND PXR IS MODULATED BY COMPLEX REGULATORY MECHANISMS THAT INVOLVE THE INTERPLAY OF TRANSCRIPTION FACTORS AND ALSO POST-TRANSCRIPTIONAL AND EPIGENETIC MODIFICATIONS. MOREOVER, MANY ENVIRONMENTAL STIMULI AFFECT CAR AND PXR EXPRESSION THROUGH MECHANISMS THAT HAVE NOT BEEN ELUCIDATED. 2020 10 2821 21 FINE-TUNING AUTOPHAGY: FROM TRANSCRIPTIONAL TO POSTTRANSLATIONAL REGULATION. MACROAUTOPHAGY (HEREAFTER CALLED AUTOPHAGY) IS A VACUOLAR LYSOSOMAL PATHWAY FOR DEGRADATION OF INTRACELLULAR MATERIAL IN EUKARYOTIC CELLS. AUTOPHAGY PLAYS CRUCIAL ROLES IN TISSUE HOMEOSTASIS, IN ADAPTATION TO STRESS SITUATIONS, AND IN IMMUNE AND INFLAMMATORY RESPONSES. ALTERATION OF AUTOPHAGY IS ASSOCIATED WITH CANCER, DIABETES AND OBESITY, CARDIOVASCULAR DISEASE, NEURODEGENERATIVE DISEASE, AUTOIMMUNE DISEASE, INFECTION, AND CHRONIC INFLAMMATORY DISEASE. AUTOPHAGY IS CONTROLLED BY AUTOPHAGY-RELATED (ATG) PROTEINS THAT ACT IN A COORDINATED MANNER TO BUILD UP THE INITIAL AUTOPHAGIC VACUOLE NAMED THE AUTOPHAGOSOME. IT IS NOW KNOWN THAT THE ACTIVITIES OF ATG PROTEINS ARE MODULATED BY POSTTRANSLATIONAL MODIFICATIONS SUCH AS PHOSPHORYLATION, UBIQUITINATION, AND ACETYLATION. MOREOVER, TRANSCRIPTIONAL AND EPIGENETIC CONTROLS ARE INVOLVED IN THE REGULATION OF AUTOPHAGY IN STRESS SITUATIONS. HERE WE SUMMARIZE AND DISCUSS HOW POSTTRANSLATIONAL MODIFICATIONS AND TRANSCRIPTIONAL AND EPIGENETIC CONTROLS REGULATE THE INVOLVEMENT OF AUTOPHAGY IN THE PROTEOSTASIS NETWORK. 2016 11 4414 29 MOLECULAR AND CELLULAR MECHANISMS OF PROPOLIS AND ITS POLYPHENOLIC COMPOUNDS AGAINST CANCER. IN RECENT YEARS, INTEREST IN NATURAL PRODUCTS SUCH AS ALTERNATIVE SOURCES OF PHARMACEUTICALS FOR NUMEROUS CHRONIC DISEASES, INCLUDING TUMORS, HAS BEEN RENEWED. PROPOLIS, A NATURAL PRODUCT COLLECTED BY HONEYBEES, AND POLYPHENOLIC/FLAVONOID PROPOLIS-RELATED COMPONENTS MODULATE ALL STEPS OF THE CANCER PROGRESSION PROCESS. ANTICANCER ACTIVITY OF PROPOLIS AND ITS COMPOUNDS RELIES ON VARIOUS MECHANISMS: CELL-CYCLE ARREST AND ATTENUATION OF CANCER CELLS PROLIFERATION, REDUCTION IN THE NUMBER OF CANCER STEM CELLS, INDUCTION OF APOPTOSIS, MODULATION OF ONCOGENE SIGNALING PATHWAYS, INHIBITION OF MATRIX METALLOPROTEINASES, PREVENTION OF METASTASIS, ANTI-ANGIOGENESIS, ANTI-INFLAMMATORY EFFECTS ACCOMPANIED BY THE MODULATION OF THE TUMOR MICROENVIRONMENT (BY MODIFYING MACROPHAGE ACTIVATION AND POLARIZATION), EPIGENETIC REGULATION, ANTIVIRAL AND BACTERICIDAL ACTIVITIES, MODULATION OF GUT MICROBIOTA, AND ATTENUATION OF CHEMOTHERAPY-INDUCED DELETERIOUS SIDE EFFECTS. INGREDIENTS FROM PROPOLIS ALSO "SENSITIZE" CANCER CELLS TO CHEMOTHERAPEUTIC AGENTS, LIKELY BY BLOCKING THE ACTIVATION OF THE TRANSCRIPTION FACTOR NUCLEAR FACTOR KAPPA-LIGHT-CHAIN-ENHANCER OF ACTIVATED B CELLS (NF-KAPPAB). IN THIS REVIEW, WE SUMMARIZE THE CURRENT KNOWLEDGE RELATED TO THE THE EFFECTS OF FLAVONOIDS AND OTHER POLYPHENOLIC COMPOUNDS FROM PROPOLIS ON TUMOR GROWTH AND METASTASIZING ABILITY, AND DISCUSS POSSIBLE MOLECULAR AND CELLULAR MECHANISMS INVOLVED IN THE MODULATION OF INFLAMMATORY PATHWAYS AND CELLULAR PROCESSES THAT AFFECT SURVIVAL, PROLIFERATION, INVASION, ANGIOGENESIS, AND METASTASIS OF THE TUMOR. 2022 12 6241 20 THE MANY TALENTS OF TRANSFORMING GROWTH FACTOR-BETA IN THE KIDNEY. PURPOSE OF REVIEW: PRECLINICAL DATA SUGGESTS THAT TRANSFORMING GROWTH FACTOR-BETA (TGF-BETA) IS ARGUABLY THE MOST POTENT PROFIBROTIC GROWTH FACTOR IN KIDNEY INJURY. DESPITE THIS, RECENT CLINICAL TRIALS TARGETING TGF-BETA HAVE BEEN DISAPPOINTING. THESE NEGATIVE STUDIES SUGGEST THAT TGF-BETA SIGNALING IN THE INJURED KIDNEY MIGHT BE MORE COMPLICATED THAN ORIGINALLY THOUGHT. THIS REVIEW EXAMINES RECENT STUDIES THAT EXPAND OUR UNDERSTANDING OF HOW THIS PLEIOTROPIC GROWTH FACTOR AFFECTS RENAL INJURY. RECENT FINDINGS: THERE ARE RECENT STUDIES SHOWING NEW MECHANISMS WHEREBY TGF-BETA CAN MEDIATE INJURY (E.G. EPIGENETIC EFFECTS, MACROPHAGE CHEMOATTRACTANT). HOWEVER, MORE SIGNIFICANT ARE THE INCREASING REPORTS ON CROSS-TALK BETWEEN TGF-BETA SIGNALING AND OTHER PATHWAYS RELEVANT TO RENAL INJURY SUCH AS WNT/BETA-CATENIN, YAP/TAZ (TRANSCRIPTIONAL COACTIVATOR WITH PDZ-BINDING MOTIF), AND KLOTHO/FGF23. TGF-BETA CLEARLY ALTERS THE RESPONSE TO INJURY, NOT JUST BY DIRECT TRANSCRIPTIONAL CHANGES ON TARGET CELLS, BUT ALSO THROUGH EFFECTS ON OTHER SIGNALING PATHWAYS. IN T CELLS AND TUBULAR EPITHELIAL CELLS, SOME OF THESE TGF-BETA-MEDIATED CHANGES ARE POTENTIALLY BENEFICIAL. SUMMARY: IT IS UNLIKELY THAT INHIBITION OF TGF-BETA PER SE WILL BE A SUCCESSFUL ANTIFIBROTIC STRATEGY, BUT A BETTER UNDERSTANDING OF TGF-BETA'S ACTIONS MAY REVEAL PROMISING DOWNSTREAM TARGETS OR MODULATORS OF SIGNALING TO TARGET THERAPEUTICALLY FOR CHRONIC KIDNEY DISEASE. 2019 13 3253 37 HEPATITIS B VIRUS X PROTEIN ACCELERATES THE DEVELOPMENT OF HEPATOMA. THE CHRONIC INFECTION OF HEPATITIS B VIRUS (HBV) IS CLOSELY RELATED TO THE OCCURRENCE AND DEVELOPMENT OF HEPATOCELLULAR CARCINOMA (HCC). ACCUMULATED EVIDENCE HAS SHOWN THAT HBV X PROTEIN (HBX PROTEIN) IS A MULTIFUNCTIONAL REGULATOR WITH A CRUCIAL ROLE IN HEPATOCARCINOGENESIS. HOWEVER, INFORMATION ON THE MECHANISM BY WHICH HBV INDUCES HCC IS LACKING. THIS REVIEW FOCUSES ON THE PATHOLOGICAL FUNCTIONS OF HBX IN HBV-INDUCED HEPATOCARCINOGENESIS. AS A TRANSACTIVATOR, HBX CAN MODULATE NUCLEAR FACTOR KAPPA-LIGHT-CHAIN-ENHANCER OF ACTIVATED B CELLS (NF-KAPPAB) AND TRANSCRIPTION FACTOR AP-2. MOREOVER, HBX CAN AFFECT REGULATORY NON-CODING RNAS (NCRNAS) INCLUDING MICRORNAS AND LONG NCRNAS (LNCRNAS), SUCH AS MIRNA-205 AND HIGHLY UPREGULATED IN LIVER CANCER (HULC), RESPECTIVELY. HBX IS ALSO INVOLVED IN EPIGENETIC MODIFICATION, INCLUDING METHYLATION AND ACETYLATION. HBX INTERACTS WITH VARIOUS SIGNAL-TRANSDUCTION PATHWAYS, SUCH AS PROTEIN KINASE B/AKT, WNT/BETA-CATENIN, SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION, AND NF-KAPPAB PATHWAYS. MOREOVER, HBX AFFECTS CELLULAR FATE BY SHIFTING THE BALANCE TOWARD CELL SURVIVAL. HBX MAY LEAD TO THE LOSS OF APOPTOTIC FUNCTIONS OR DIRECTLY CONTRIBUTES TO ONCOGENESIS BY ACHIEVING TRANSFORMING FUNCTIONS, WHICH INDUCE HEPATOCARCINOGENESIS. ADDITIONALLY, HBX CAN MODULATE APOPTOSIS AND IMMUNE RESPONSE BY DIRECT OR INDIRECT INTERACTION WITH HOST FACTORS. WE CONCLUDE THAT HBX HASTENS THE DEVELOPMENT OF HEPATOMA. 2014 14 5423 22 REGULATION OF MACROPHAGE ACTIVATION AND DIFFERENTIATION IN ATHEROSCLEROSIS. CHRONIC INFLAMMATION IS A HALLMARK OF ATHEROSCLEROSIS AND MACROPHAGES PLAY A CENTRAL ROLE IN CONTROLLING INFLAMMATION AT ALL STAGES OF ATHEROSCLEROSIS. IN ATHEROSCLEROSIS, MACROPHAGES AND MONOCYTE-DERIVED MACROPHAGES ARE CONTINUOUSLY EXPOSED TO CHOLESTEROL, OXIDIZED LIPIDS, CELL DEBRIS, CYTOKINES, AND CHEMOKINES. NOT ONLY DO THESE STIMULI INDUCE A SPECIFIC MACROPHAGE PHENOTYPE, BUT THEY ALSO INTERACT EXTENSIVELY, LEADING TO MACROPHAGE HETEROGENEITY IN ATHEROSCLEROTIC PLAQUES. HEREIN, WE REVIEW THE DIVERSE PHENOTYPES OF MACROPHAGES, THE MECHANISMS UNDERLYING MACROPHAGE ACTIVATION, AND THE CONTRIBUTIONS OF MACROPHAGES TO ATHEROSCLEROSIS IN THIS CONTEXT. WE ALSO SUMMARIZE RECENT STUDIES ON FOAMY MACROPHAGES AND MONOCYTE-DERIVED MACROPHAGES IN PLAQUE DURING DISEASE PROGRESSION. WE PROVIDE A COMPREHENSIVE OVERVIEW OF TRANSCRIPTIONAL, EPIGENETIC, AND METABOLIC REPROGRAMMING OF MACROPHAGES AND DISCUSS THE EMERGING CONCEPTS OF TARGETING CYTOKINES AND MACROPHAGES TO MODULATE ATHEROSCLEROSIS. 2021 15 5991 25 TGF-BETA1/SMAD SIGNALLING IN PROLIFERATIVE GLOMERULONEPHRITIS ASSOCIATED WITH AUTOIMMUNE DISEASES. GLOMERULONEPHRITIS IS A COMMON CAUSE OF CHRONIC KIDNEY DISEASE, WHICH HAS EMERGED AS A MAJOR CAUSE OF END-STAGE RENAL DISEASE. AUTOIMMUNE DISEASES, SUCH AS SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) AND ANCA-ASSOCIATED VASCULITIS (AAV) ARE OFTEN ASSOCIATED WITH PROLIFERATIVE GLOMERULONEPHRITIS. TRANSFORMING GROWTH FACTOR-BETA1 (TGF-BETA1) IS A CYTOKINE WITH PLEIOTROPIC EFFECTS IN CHRONIC RENAL DISEASES, BASED ON IN VIVO AND IN VITRO STUDIES. THE SMAD-DEPENDENT SIGNALLING PATHWAY PLAYS AN IMPORTANT ROLE IN THE REGULATION OF RENAL FIBROSIS (EXCESSIVE PRODUCTION OF EXTRACELLULAR MATRIX [ECM]) AND INFLAMMATION. HOWEVER, CLINICAL TRIALS TARGETING TGF-BETA1 HAVE PRESENTED DISAPPOINTING RESULTS, SUGGESTING THAT THE DOWNSTREAM SIGNALLING IS QUITE COMPLEX. THE DIVERSITY OF THE EFFECTS MAY ASSOCIATE WITH THE INTERACTIONS BETWEEN TGF-BETA1 SIGNALLING AND OTHER DOWNSTREAM SIGNALLING, AS WELL AS THE DIFFERENT CELLULAR RESPONSES, WHICH TGF-BETA1 PROMOTES. RECENTLY, MACROPHAGE CHEMOATTRACT AND EPIGENETIC EFFECTS HAVE ALSO BEEN IDENTIFIED AS NEW MECHANISMS, WHEREFORE TGF-BETA1/SMAD SIGNALLING MEDIATES RENAL INJURY. THIS REVIEW PROVIDES AN OVERVIEW OF THE ROLE OF TGF-BETA1/SMAD SIGNALLING PATHWAY FROM IN VIVO AND IN VITRO STUDIES IN THE PATHOGENESIS OF GLOMERULONEPHRITIS AND PARTICULARLY IN PROLIFERATIVE GLOMERULONEPHRITIS, WHICH IS ASSOCIATED WITH AUTOIMMUNE DISEASES. 2022 16 3255 33 HEPATITIS B VIRUS X PROTEIN MEDIATED EPIGENETIC ALTERATIONS IN THE PATHOGENESIS OF HEPATOCELLULAR CARCINOMA. CHRONIC HEPATITIS B VIRUS (HBV) INFECTION IS A WORLDWIDE HEALTH PROBLEM. HEPATITIS B VIRUS X PROTEIN (HBX), A PLEIOTROPIC REGULATORY PROTEIN ENCODED BY HBV, IS NECESSARY FOR THE TRANSCRIPTION OF HBV COVALENTLY CLOSED CIRCULAR DNA (CCCDNA) MINICHROMOSOMES, AND AFFECTS THE EPIGENETIC REGULATION OF HOST CELLS. THE EPIGENETIC REPROGRAMMING OF HBX ON HOST CELL GENOME IS STRONGLY INVOLVED IN HBV-RELATED HCC CARCINOGENESIS. HERE, WE REVIEW THE LATEST FINDINGS OF THE EPIGENETIC REGULATION INDUCED BY HBX PROTEIN IN HEPATOCELLULAR CARCINOMA (HCC), INCLUDING DNA METHYLATION, HISTONE MODIFICATION AND NON-CODING RNA EXPRESSION. THE INFLUENCE OF HBX ON THE EPIGENETIC REGULATION OF CCCDNA IS ALSO SUMMARIZED. IN ADDITION, PRELIMINARY STUDIES OF TARGETED DRUGS FOR EPIGENETIC CHANGES INDUCED BY HBX ARE ALSO DISCUSSED. THE EXPLORATION OF EPIGENETIC MARKERS AS POTENTIAL TARGETS WILL HELP TO DEVELOP NEW PREVENTION AND/OR TREATMENT METHODS FOR HBX-RELATED HCC. 2022 17 5600 15 ROLES OF VOLTAGE-DEPENDENT SODIUM CHANNELS IN NEURONAL DEVELOPMENT, PAIN, AND NEURODEGENERATION. BESIDES INITIATING AND PROPAGATING ACTION POTENTIALS IN ESTABLISHED NEURONAL CIRCUITS, VOLTAGE-DEPENDENT SODIUM CHANNELS SCULPT AND BOLSTER THE FUNCTIONAL NEURONAL NETWORK FROM EARLY IN EMBRYONIC DEVELOPMENT THROUGH ADULTHOOD (E.G., DIFFERENTIATION OF OLIGODENDROCYTE PRECURSOR CELLS INTO OLIGODENDROCYTES, MYELINATING AXON; COMPETITION BETWEEN NEIGHBORING EQUIPOTENTIAL NEURITES FOR DEVELOPMENT INTO A SINGLE AXON; ENHANCING AND OPPOSING FUNCTIONAL INTERACTIONS WITH ATTRACTIVE AND REPULSIVE MOLECULES FOR AXON PATHFINDING; EXTENDING AND RETRACTING TERMINAL ARBORIZATION OF AXON FOR CORRECT SYNAPSE FORMATION; EXPERIENCE-DRIVEN COGNITION; NEURONAL SURVIVAL; AND REMYELINATION OF DEMYELINATED AXONS). SURPRISINGLY, DIFFERENT PATTERNS OF ACTION POTENTIALS DIRECT HOMEOSTASIS-BASED EPIGENETIC SELECTION FOR NEUROTRANSMITTER PHENOTYPE, THUS EXCITABILITY BY SODIUM CHANNELS SPECIFYING EXPRESSION OF INHIBITORY NEUROTRANSMITTERS. MECHANISMS FOR THESE PLEIOTROPIC EFFECTS OF SODIUM CHANNELS INCLUDE RECIPROCAL INTERACTIONS BETWEEN NEURONS AND GLIA VIA NEUROTRANSMITTERS, GROWTH FACTORS, AND CYTOKINES AT SYNAPSES AND AXONS. SODIUM CHANNELOPATHIES CAUSING PAIN (E.G., ALLODYNIA) AND NEURODEGENERATION (E.G., MULTIPLE SCLEROSIS) DERIVE FROM 1) ELECTROPHYSIOLOGICAL DISTURBANCES BY INSULTS (E.G., ISCHEMIA/HYPOXIA, TOXINS, AND ANTIBODIES); 2) LOSS-OF-PHYSIOLOGICAL FUNCTION OR GAIN-OF-PATHOLOGICAL FUNCTION OF MUTANT SODIUM CHANNEL PROTEINS; 3) SPATIOTEMPORAL INAPPROPRIATE EXPRESSION OF NORMAL SODIUM CHANNEL PROTEINS; OR 4) DE-REPRESSED EXPRESSION OF OTHERWISE SILENT SODIUM CHANNEL GENES. NA(V)1.7 PROVED TO ACCOUNT FOR PAIN IN HUMAN ERYTHERMALGIA AND INFLAMMATION, BEING THE CONVINCING MOLECULAR TARGET OF PAIN TREATMENT. 2006 18 5421 20 REGULATION OF INTERLEUKIN-23 EXPRESSION IN HEALTH AND DISEASE. INTERLEUKIN (IL)-23 PLAYS A CENTRAL ROLE IN THE ORCHESTRATION OF INFLAMMATORY RESPONSES. PRODUCED BY DENDRITIC CELLS AND MACROPHAGES, THIS CYTOKINE PROMOTES THE PROTECTION OF THE HOST AGAINST MUCOSAL PATHOGENS THROUGH THE INDUCTION OF IL-17 AND RELATED CYTOKINES BY LYMPHOID CELLS. PRECLINICAL DISEASE MODELS AND ASSOCIATION STUDIES IN HUMANS HAVE ALSO CLEARLY DEMONSTRATED THE IMPLICATION OF IL-23 SIGNALLING PATHWAY IN INFLAMMATORY DISEASES. INDEED, THIS CYTOKINE IS NOW CONSIDERED AS A MAJOR THERAPEUTIC TARGET IN IMMUNE-BASED PATHOLOGIES SUCH AS PSORIASIS, ANKYLOSING SPONDYLITIS OR CROHN'S DISEASE. FURTHERMORE, IN THE CONTEXT OF INFLAMMATION-RELATED CANCER, IL-23 IS THOUGHT TO CONTRIBUTE TO TUMORIGENESIS AND PROGRESSION TO METASTATIC DISEASE. HEREIN, WE REVIEW OUR CURRENT UNDERSTANDING OF IL-23 REGULATION AT THE TRANSCRIPTIONAL AND POST-TRANSCRIPTIONAL LEVELS. WE DISCUSS THE RELEVANCE OF THESE FINDINGS IN THE CONTEXT OF INFECTION, CHRONIC INFLAMMATION AND CANCER. 2016 19 3184 24 HARNESSING METABOLISM OF HEPATIC MACROPHAGES TO AID LIVER REGENERATION. LIVER REGENERATION IS A DYNAMIC AND REGULATED PROCESS THAT INVOLVES INFLAMMATION, GRANULATION, AND TISSUE REMODELING. HEPATIC MACROPHAGES, ABUNDANTLY DISTRIBUTED IN THE LIVER, ARE ESSENTIAL COMPONENTS THAT ACTIVELY PARTICIPATE IN EACH STEP TO ORCHESTRATE LIVER REGENERATION. IN THE HOMEOSTATIC LIVER, RESIDENT MACROPHAGES (KUPFFER CELLS) ACQUIRE A TOLEROGENIC PHENOTYPE AND CONTRIBUTE TO IMMUNOLOGICAL TOLERANCE. FOLLOWING TOXICITY-INDUCED DAMAGE OR PHYSICAL RESECTION, KUPFFER CELLS AS WELL AS MONOCYTE-DERIVED MACROPHAGES CAN BE ACTIVATED AND PROMOTE AN INFLAMMATORY PROCESS THAT SUPPORTS THE SURVIVAL AND ACTIVATION OF HEPATIC MYOFIBROBLASTS AND THUS PROMOTES SCAR TISSUE FORMATION. SUBSEQUENTLY, THESE MACROPHAGES, IN TURN, EXHIBIT THE ANTI-INFLAMMATORY EFFECTS CRITICAL TO EXTRACELLULAR MATRIX REMODELING DURING THE RESOLUTION STAGE. HOWEVER, CONTINUOUS DAMAGE-INDUCED CHRONIC INFLAMMATION GENERALLY LEADS TO HEPATIC MACROPHAGE DYSFUNCTION, WHICH EXACERBATES HEPATOCELLULAR INJURY AND TRIGGERS FURTHER LIVER FIBROSIS AND EVEN CIRRHOSIS. EMERGING MACROPHAGE-TARGETING STRATEGIES HAVE SHOWN EFFICACY IN BOTH PRECLINICAL AND CLINICAL STUDIES. INCREASING EVIDENCE INDICATES THAT METABOLIC REWIRING PROVIDES SUBSTRATES FOR EPIGENETIC MODIFICATION, WHICH ENDOWS MONOCYTES/MACROPHAGES WITH PROLONGED "INNATE IMMUNE MEMORY". THEREFORE, IT IS REASONABLE TO CONCEIVE NOVEL THERAPEUTIC STRATEGIES FOR METABOLICALLY REPROGRAMMING MACROPHAGES AND THUS MEDIATE A HOMEOSTATIC OR REPARATIVE PROCESS FOR HEPATIC INFLAMMATION MANAGEMENT AND LIVER REGENERATION. 2023 20 3254 27 HEPATITIS B VIRUS X PROTEIN AND HEPATOCARCINOGENESIS. CHRONIC HEPATITIS B VIRUS (HBV) INFECTION IS ONE OF THE MOST ASSOCIATED FACTORS IN HEPATOCARCINOGENESIS. HBV IS ABLE TO INTEGRATE INTO THE HOST GENOME AND ENCODE THE MULTI-FUNCTIONAL HEPATITIS B VIRUS X PROTEIN (HBX). ALTHOUGH THE MECHANISM BETWEEN HBX AND CARCINOGENESIS IS STILL ELUSIVE, RECENT STUDIES HAVE SHOWN THAT HBX WAS ABLE TO INFLUENCE VARIOUS SIGNALING PATHWAYS, AS WELL AS EPIGENETIC AND GENETIC PROCESSES. THIS REVIEW WILL EXAMINE AND SUMMARIZE RECENT LITERATURE ABOUT HBX'S ROLE IN THESE VARIOUS PROCESSES. 2016