1 2788 130 FACTORS AFFECTING THE TRANSITION OF ACUTE KIDNEY INJURY TO CHRONIC KIDNEY DISEASE: POTENTIAL MECHANISMS AND FUTURE PERSPECTIVES. ACUTE KIDNEY INJURY (AKI) IS DEFINED AS A RAPID LOSS OF KIDNEY FUNCTION CHARACTERISED BY INFLAMMATION AND CELL DEATH, ULTIMATELY LEADING TO FURTHER FUNCTIONAL AND STRUCTURAL RENAL ALTERATIONS. BASED ON EXPERIMENTAL AND EPIDEMIOLOGICAL PIECES OF EVIDENCE, AKI MAY PROGRESS TO CHRONIC KIDNEY DISEASE (CKD) EVEN AFTER A RECOVERY PERIOD DUE TO MALADAPTIVE REPAIR AND OTHER UNDERLYING MECHANISMS SUCH AS HEIGHTENED WNT SIGNALLING, OVERSTIMULATION OF THE RENIN-ANGIOTENSIN-ALDOSTERONE-SYSTEM (RAAS) PATHWAY, EPIGENETIC ALTERATIONS AND INHIBITION OF HYPOXIA-INDUCIBLE FACTOR (HIF) DEPENDENT DEFENCES. IT HAS BEEN REPORTED THAT RAAS ACTIVATION SUBSEQUENT TO RENAL INSULT MEDIATES INFLAMMATORY AND FIBROTIC MECHANISMS, WHICH ARE A HALLMARK OF CKD. MOREOVER, INTERESTING EVIDENCE REGARDING THE EXPOSURE-DEPENDENT DUAL ROLE OF WNT SIGNALLING IN BOTH INJURY AND REPAIR, EPIGENETIC CHANGES UNDERLYING KIDNEY DISEASE SUGGEST A POTENTIAL THERAPEUTIC ROLE OF THESE PATHWAYS IN AKI TO CKD CONTINUUM. IN ADDITION, THE HYPOXIA-INDEPENDENT RENAL BENEFITS OF ERYTHROPOIETIN SUCH AS ANTI-APOPTOSIS AND TUBULAR REGENERATION ALSO PRESENT AN AUSPICIOUS TARGET WHICH COULD BE USEFUL IN CLINICAL SETTINGS. IN THIS REVIEW, THE SPECIFIC ROLES OF THESE PATHWAYS IN KIDNEY DISEASE, THEIR PATHOLOGICAL MECHANISMS AND THERAPEUTIC STRATEGIES ARE DISCUSSED. MOREOVER, NOTABLE REPORTS CONCERNING STEM CELL THERAPY WHICH HOLD PROMISE IN HALTING AKI-CKD CONTINUUM WILL BE ELABORATED. 2019 2 2490 33 EPIGENETICALLY REGULATED INFLAMMATION IN VASCULAR SENESCENCE AND RENAL PROGRESSION OF CHRONIC KIDNEY DISEASE. CHRONIC KIDNEY DISEASE (CKD) AND ITS COMPLICATIONS, INCLUDING VASCULAR SENESCENCE AND PROGRESSIVE RENAL FIBROSIS, ARE ASSOCIATED WITH INFLAMMATION. VASCULAR SENESCENCE, IN PARTICULAR, HAS EMERGED AS AN INSTRUMENTAL MEDIATOR OF VASCULAR INFLAMMATION THAT POTENTIALLY WORSENS RENAL FUNCTION. EPIGENETICALLY REGULATED INFLAMMATION INVOLVING HISTONE MODIFICATION, DNA METHYLATION, ACTIONS OF MICRORNAS AND OTHER NON-CODING RNAS, AND THEIR RECIPROCAL REACTIONS DURING VASCULAR SENESCENCE AND INFLAMMAGING ARE UNDERAPPRECIATED. THEIR SYNERGISTIC EFFECTS CAN CONTRIBUTE TO CKD PROGRESSION. VASCULAR SENOTHERAPEUTICS OR PHARMACOLOGICAL ANTI-SENESCENT THERAPIES BASED ON EPIGENETIC MACHINERIES CAN THEREFORE BE PLAUSIBLE OPTIONS FOR AMELIORATING VASCULAR AGING AND EVEN HALTING THE WORSENING OF RENAL FIBROSIS. THESE INCLUDE HISTONE DEACETYLASE MODULATORS, HISTONE METHYLTRANSFERASE MODULATORS, OTHER HISTONE MODIFICATION EFFECTORS, DNA METHYLTRANSFERASE INHIBITORS, TELOMERASE REVERSE TRANSCRIPTASE ENHANCERS, MICRORNA MIMIC DELIVERY, AND SMALL MOLECULES WITH MICRORNA-REGULATING POTENTIALS. SOME OF THESE MOLECULES HAVE ALREADY BEEN TESTED AND HAVE SHOWN ANECDOTAL EVIDENCE FOR TREATING UREMIC VASCULOPATHY AND RENAL FIBROSIS, SUPPORTING THE FEASIBILITY OF THIS APPROACH. 2022 3 1255 32 CURRENT STATUS OF NOVEL ANTIFIBROTIC THERAPIES IN PATIENTS WITH CHRONIC LIVER DISEASE. FIBROSIS ACCUMULATION IS A DYNAMIC PROCESS RESULTING FROM A WOUND-HEALING RESPONSE TO ACUTE OR CHRONIC LIVER INJURY OF ALL CAUSES. THE CASCADE STARTS WITH HEPATOCYTE NECROSIS AND APOPTOSIS, WHICH INSTIGATE INFLAMMATORY SIGNALING BY CHEMOKINES AND CYTOKINES, RECRUITMENT OF IMMUNE CELL POPULATIONS, AND ACTIVATION OF FIBROGENIC CELLS, CULMINATING IN THE DEPOSITION OF EXTRACELLULAR MATRIX. THESE KEY ELEMENTS, ALONG WITH PATHWAYS OF TRANSCRIPTIONAL AND EPIGENETIC REGULATION, REPRESENT FERTILE THERAPEUTIC TARGETS. NEW THERAPIES INCLUDE DRUGS SPECIFICALLY DESIGNED AS ANTIFIBROTICS, AS WELL AS DRUGS ALREADY AVAILABLE WITH WELL-ESTABLISHED SAFETY PROFILES, WHOSE MECHANISM OF ACTION MAY ALSO BE ANTIFIBROTIC. AT THE SAME TIME, THE DEVELOPMENT OF NONINVASIVE FIBROGENIC MARKERS, AND TECHNIQUES (E.G. FIBROSCAN), AS WELL AS COMBINED SCORING SYSTEMS INCORPORATING SERUM AND CLINICAL FEATURES WILL ALLOW IMPROVED ASSESSMENT OF THERAPY RESPONSE. IN AGGREGATE, THE ADVANCES IN THE ELUCIDATION OF THE BIOLOGY OF FIBROSIS, COMBINED WITH IMPROVED TECHNOLOGIES FOR ASSESSMENT WILL PROVIDE A COMPREHENSIVE FRAMEWORK FOR DESIGN OF ANTIFIBROTICS AND THEIR ANALYSIS IN WELL-DESIGNED CLINICAL TRIALS. THESE EFFORTS MAY ULTIMATELY YIELD SUCCESS IN HALTING THE PROGRESSION OF, OR REVERSING, LIVER FIBROSIS. 2011 4 4513 29 MULTI-OMIC APPROACHES TO ACUTE KIDNEY INJURY AND REPAIR. THE KIDNEY HAS A REMARKABLE REGENERATIVE CAPACITY. IN RESPONSE TO ISCHEMIC OR TOXIC INJURY, PROXIMAL TUBULE CELLS CAN PROLIFERATE TO REBUILD DAMAGED TUBULES AND RESTORE KIDNEY FUNCTION. HOWEVER, SEVERE ACUTE KIDNEY INJURY (AKI) OR RECURRENT AKI EVENTS CAN LEAD TO MALADAPTIVE REPAIR AND DISEASE PROGRESSION FROM AKI TO CHRONIC KIDNEY DISEASE (CKD). THE APPLICATION OF SINGLE CELL TECHNOLOGIES HAS IDENTIFIED INJURED PROXIMAL TUBULE CELL STATES WEEKS AFTER AKI, DISTINGUISHED BY A PRO-INFLAMMATORY SENESCENT MOLECULAR SIGNATURE. EPIGENETIC STUDIES HIGHLIGHTED DYNAMIC CHANGES IN THE CHROMATIN LANDSCAPE OF THE KIDNEY FOLLOWING AKI AND DESCRIBED KEY TRANSCRIPTION FACTORS LINKED TO THE AKI RESPONSE. THE INTEGRATION OF MULTI-OMIC TECHNOLOGIES OPENS NEW POSSIBILITIES TO IMPROVE OUR UNDERSTANDING OF AKI AND THE DRIVING FORCES BEHIND THE AKI-TO-CKD TRANSITION, WITH THE ULTIMATE GOAL OF DESIGNING TAILORED DIAGNOSTIC AND THERAPEUTIC STRATEGIES TO IMPROVE AKI OUTCOMES AND PREVENT KIDNEY DISEASE PROGRESSION. 2021 5 3273 29 HEPATOCELLULAR CARCINOMA: MOLECULAR PATHWAYS AND NEW THERAPEUTIC TARGETS. HEPATOCELLULAR CARCINOMA IS OFTEN DIAGNOSED AT AN ADVANCED STAGE, WHEN IT IS NOT AMENABLE TO CURATIVE THERAPIES. THERE IS NO EFFECTIVE CHEMOTHERAPY. ADVANCES IN CANCER BIOLOGY SUGGEST THAT A LIMITED NUMBER OF PATHWAYS ARE RESPONSIBLE FOR INITIATING AND MAINTAINING DYSREGULATED CELL PROLIFERATION, WHICH IS THE MAJOR CELLULAR ALTERATION RESPONSIBLE FOR THE CANCER PHENOTYPE. NEW TREATMENTS IN DEVELOPMENT TARGET SEVERAL OF THESE CRITICAL PATHWAYS, INCLUDING AGENTS TARGETING THE RECEPTOR TYROSINE KINASE PATHWAYS, THE WNT/BETA-CATENIN SIGNALING PATHWAY, THE UBIQUITIN/PROTEASOME DEGRADATION PATHWAY, THE EPIGENETIC DNA METHYLATION AND HISTONE DEACETYLATION PATHWAYS, THE PI3 KINASE/AKT/MTOR PATHWAY, ANGIOGENIC PATHWAYS, AND TELOMERASE. SEVERAL OF THESE APPROACHES HOLD SIGNIFICANT PROMISE FOR IMPROVING THE LONG-TERM OUTCOME OF PATIENTS WITH ADVANCED HEPATOCELLULAR CARCINOMA. BECAUSE OF THE HIGH PREVALENCE OF LIVER CIRRHOSIS IN HEPATOCELLULAR CARCINOMA PATIENTS, THESE APPROACHES MUST BE COUPLED WITH NEW STRATEGIES FOR HALTING OR REVERSING THE PROGRESSION OF CHRONIC LIVER DISEASE. 2005 6 3931 22 LIVER INJURY AND THE ACTIVATION OF THE HEPATIC MYOFIBROBLASTS. LIVER FIBROSIS IS A WOUND HEALING PROCESS, THE END RESULT OF CHRONIC LIVER INJURY ELICITED BY DIFFERENT NOXIOUS STIMULI. ACTIVATED HEPATIC STELLATE CELLS OR MYOFIBROBLASTS AND PORTAL MYOFIBROBLASTS ARE CONSIDERED AS THE MAIN PRODUCERS OF THE EXTRACELLULAR MATRIX IN THE LIVER. UPON LIVER INJURY THE QUIESCENT STELLATE CELLS TRANSDIFFERENTIATE INTO MYOFIBROBLASTS A PROCESS HIGHLIGHTED BY THE LOSS OF VITAMIN A STORES, UPREGULATION OF INTERSTITIAL TYPE COLLAGENS, SMOOTH MUSCLE ALPHA ACTIN, MATRIX METALLOPROTEINASES, PROTEOGLYCANS, AND THE INDUCTION OF CELL SURVIVAL PATHWAYS. ACTIVATION OF HEPATIC STELLATE CELLS IS A RESULT OF A COMPLEX INTERPLAY BETWEEN THE PARENCHYMAL CELLS, IMMUNE CELLS, EXTRACELLULAR MATRIX MECHANICS AND EXTRAHEPATIC MILIEU SUCH AS THE GUT MICROBIOME. IN THIS REVIEW WE WILL FOCUS ON THE PATHOMECHANISM OF STELLATE CELL ACTIVATION FOLLOWING CHRONIC LIVER INJURY; WITH THE AIM OF IDENTIFYING POSSIBLE TREATMENT TARGETS FOR ANTI-FIBROGENIC AGENTS. 2013 7 3245 21 HEPATIC STELLATE CELLS AS KEY TARGET IN LIVER FIBROSIS. PROGRESSIVE LIVER FIBROSIS, INDUCED BY CHRONIC VIRAL AND METABOLIC DISORDERS, LEADS TO MORE THAN ONE MILLION DEATHS ANNUALLY VIA DEVELOPMENT OF CIRRHOSIS, ALTHOUGH NO ANTIFIBROTIC THERAPY HAS BEEN APPROVED TO DATE. TRANSDIFFERENTIATION (OR "ACTIVATION") OF HEPATIC STELLATE CELLS IS THE MAJOR CELLULAR SOURCE OF MATRIX PROTEIN-SECRETING MYOFIBROBLASTS, THE MAJOR DRIVER OF LIVER FIBROGENESIS. PARACRINE SIGNALS FROM INJURED EPITHELIAL CELLS, FIBROTIC TISSUE MICROENVIRONMENT, IMMUNE AND SYSTEMIC METABOLIC DYSREGULATION, ENTERIC DYSBIOSIS, AND HEPATITIS VIRAL PRODUCTS CAN DIRECTLY OR INDIRECTLY INDUCE STELLATE CELL ACTIVATION. DYSREGULATED INTRACELLULAR SIGNALING, EPIGENETIC CHANGES, AND CELLULAR STRESS RESPONSE REPRESENT CANDIDATE TARGETS TO DEACTIVATE STELLATE CELLS BY INDUCING REVERSION TO INACTIVATED STATE, CELLULAR SENESCENCE, APOPTOSIS, AND/OR CLEARANCE BY IMMUNE CELLS. CELL TYPE- AND TARGET-SPECIFIC PHARMACOLOGICAL INTERVENTION TO THERAPEUTICALLY INDUCE THE DEACTIVATION WILL ENABLE MORE EFFECTIVE AND LESS TOXIC PRECISION ANTIFIBROTIC THERAPIES. 2017 8 6910 28 [TRANSFORMING GROWTH FACTOR-BETA AND RENAL FIBROSIS]. TRANSFORMING GROWTH FACTOR-BETA (TGF-BETA) IS A DRIVING FORCE OF RENAL FIBROSIS, WHICH MAY LEAD TO CHRONIC KIDNEY DISEASES AND EVEN END STAGE RENAL DISEASES. BY ACTIVATING CANONICAL AND NON-CANONICAL SIGNALING PATHWAYS, TGF-BETA PROMOTES THE SYNTHESIS OF EXTRACELLULAR MATRIX WHILE PREVENTING THEIR DEGRADATION. IN THE INJURED KIDNEY, TGF-BETA INDUCES APOPTOSIS, PROLIFERATION AND FIBROTIC RESPONSE OF RENAL CELLS INCLUDING EPITHELIAL CELLS, ENDOTHELIAL CELLS, PODOCYTES, FIBROBLASTS, PERICYTES AND MACROPHAGES, AND IT ALSO PROMOTES TRANSDIFFERENTIATION, ACTIVATION AND PROLIFERATION OF MYOFIBROBLASTS. ADDITIONALLY, TGF-BETA EXERTS PROFIBROTIC EFFECTS BY INTERPLAYING WITH OTHER SIGNALING PATHWAYS LIKE BMP-7, WNT/BETA-CATENIN AND MAP KINASE. SMAD3 IS THE CENTRAL PATHOLOGICAL GENE IN RENAL FIBROSIS, AND EPIGENETIC REGULATION OF TGF-BETA/SMAD3 IS A HOT TOPIC IN KIDNEY FIELD. ALTHOUGH DIRECT TARGETING TGF-BETA MAY CAUSE SIDE EFFECTS INCLUDING TUMORIGENESIS AND IMMUNE DISEASES, THE THERAPEUTIC STRATEGIES TARGETING THE BALANCE OF DOWNSTREAM SMAD3 AND SMAD7 MAY PREVENT OR DELAY THE PROGRESSION OF FIBROTIC KIDNEY DISEASE. 2018 9 2817 30 FIBROSIS IN THE LIVER: ACUTE PROTECTION AND CHRONIC DISEASE. THE UNDERSTANDING OF THE CELLULAR AND MOLECULAR MECHANISMS OF THE FIBROTIC WOUND-HEALING RESPONSE OF THE LIVER HAS MADE DRAMATIC PROGRESS IN THE PAST 20 YEARS. HEPATIC STELLATE CELLS (HSCS), WHICH AFTER LIVER INJURY PROLIFERATE AND TRANSDIFFERENTIATE TO MYOFIBROBLASTS, HAVE EMERGED AS THE PRIMARY SOURCE OF THE FIBROTIC RESPONSE, EVEN THOUGH OTHER FIBROGENIC CELLS MAY ALSO CONTRIBUTE TO THE PRODUCTION OF EXTRACELLULAR MATRIX (ECM). ADVANCES IN THE UNDERSTANDING OF HSC REGULATION INCLUDE APOPTOTIC SIGNALING, ANGIOGENIC SIGNALING, AND RESPONSES TO OXIDATIVE STRESS. THE ECM HAS EMERGED NOT ONLY AS A STRUCTURAL SCAFFOLD, BUT ALSO AS A DYNAMIC AND INTERACTIVE MATRIX REGULATING STELLATE CELL ACTIVATION. ADDITIONALLY, THE INNATE IMMUNE SYSTEM AND IMMUNE SIGNALING, AS WELL AS A BROADENING UNDERSTANDING OF THE TRANSCRIPTIONAL REGULATION INCLUDING MICRORNAS AND EPIGENETIC EVENTS OFFER POTENTIAL THERAPEUTIC TARGETS. UNRAVELING GENETIC DETERMINANTS RELATED TO MECHANISMS OF HEPATIC FIBROGENESIS PROMISE INDIVIDUALIZED THERAPY OR PREVENTION. HEPATIC FIBROSIS AND CIRRHOSIS HAVE EMERGED AS TREATABLE AND POTENTIALLY REVERSIBLE CONSEQUENCE OF CHRONIC LIVER DISEASE. 2010 10 3885 42 KIDNEY FIBROSIS: FROM MECHANISMS TO THERAPEUTIC MEDICINES. CHRONIC KIDNEY DISEASE (CKD) IS ESTIMATED TO AFFECT 10-14% OF GLOBAL POPULATION. KIDNEY FIBROSIS, CHARACTERIZED BY EXCESSIVE EXTRACELLULAR MATRIX DEPOSITION LEADING TO SCARRING, IS A HALLMARK MANIFESTATION IN DIFFERENT PROGRESSIVE CKD; HOWEVER, AT PRESENT NO ANTIFIBROTIC THERAPIES AGAINST CKD EXIST. KIDNEY FIBROSIS IS IDENTIFIED BY TUBULE ATROPHY, INTERSTITIAL CHRONIC INFLAMMATION AND FIBROGENESIS, GLOMERULOSCLEROSIS, AND VASCULAR RAREFACTION. FIBROTIC NICHE, WHERE ORGAN FIBROSIS INITIATES, IS A COMPLEX INTERPLAY BETWEEN INJURED PARENCHYMA (LIKE TUBULAR CELLS) AND MULTIPLE NON-PARENCHYMAL CELL LINEAGES (IMMUNE AND MESENCHYMAL CELLS) LOCATED SPATIALLY WITHIN SCARRING AREAS. ALTHOUGH THE MECHANISMS OF KIDNEY FIBROSIS ARE COMPLICATED DUE TO THE KINDS OF CELLS INVOLVED, WITH THE HELP OF SINGLE-CELL TECHNOLOGY, MANY KEY QUESTIONS HAVE BEEN EXPLORED, SUCH AS WHAT KIND OF RENAL TUBULES ARE PROFIBROTIC, WHERE MYOFIBROBLASTS ORIGINATE, WHICH IMMUNE CELLS ARE INVOLVED, AND HOW CELLS COMMUNICATE WITH EACH OTHER. IN ADDITION, GENETICS AND EPIGENETICS ARE DEEPER MECHANISMS THAT REGULATE KIDNEY FIBROSIS. AND THE REVERSIBLE NATURE OF EPIGENETIC CHANGES INCLUDING DNA METHYLATION, RNA INTERFERENCE, AND CHROMATIN REMODELING, GIVES AN OPPORTUNITY TO STOP OR REVERSE KIDNEY FIBROSIS BY THERAPEUTIC STRATEGIES. MORE MARKETED (E.G., RAS BLOCKAGE, SGLT2 INHIBITORS) HAVE BEEN DEVELOPED TO DELAY CKD PROGRESSION IN RECENT YEARS. FURTHERMORE, A BETTER UNDERSTANDING OF RENAL FIBROSIS IS ALSO FAVORED TO DISCOVER BIOMARKERS OF FIBROTIC INJURY. IN THE REVIEW, WE UPDATE RECENT ADVANCES IN THE MECHANISM OF RENAL FIBROSIS AND SUMMARIZE NOVEL BIOMARKERS AND ANTIFIBROTIC TREATMENT FOR CKD. 2023 11 6051 36 THE CONTRIBUTION OF HISTONE CROTONYLATION TO TISSUE HEALTH AND DISEASE: FOCUS ON KIDNEY HEALTH. ACUTE KIDNEY INJURY (AKI) AND CHRONIC KIDNEY DISEASE (CKD) ARE THE MOST SEVERE CONSEQUENCES OF KIDNEY INJURY. THEY ARE INTERCONNECTED SYNDROMES AS CKD PREDISPOSES TO AKI AND AKI MAY ACCELERATE CKD PROGRESSION. DESPITE THEIR GROWING IMPACT ON THE GLOBAL BURDEN OF DISEASE, THERE IS NO SATISFACTORY TREATMENT FOR AKI AND CURRENT THERAPEUTIC APPROACHES TO CKD REMAIN SUBOPTIMAL. RECENT RESEARCH HAS FOCUSED ON THE THERAPEUTIC TARGET POTENTIAL OF EPIGENETIC REGULATION OF GENE EXPRESSION, INCLUDING NON-CODING RNAS AND THE COVALENT MODIFICATIONS OF HISTONES AND DNA. INDEED, SEVERAL DRUGS TARGETING HISTONE MODIFICATIONS ARE IN CLINICAL USE OR UNDERGOING CLINICAL TRIALS. ACYL-LYSINE HISTONE MODIFICATIONS (E.G. METHYLATION, ACETYLATION, AND CROTONYLATION) HAVE MODULATED EXPERIMENTAL KIDNEY INJURY. MOST RECENTLY, INCREASED HISTONE LYSINE CROTONYLATION (KCR) WAS OBSERVED DURING EXPERIMENTAL AKI AND COULD BE REPRODUCED IN CULTURED TUBULAR CELLS EXPOSED TO INFLAMMATORY STRESS TRIGGERED BY THE CYTOKINE TWEAK. THE DEGREE OF KIDNEY HISTONE CROTONYLATION WAS MODULATED BY CROTONATE AVAILABILITY AND CROTONATE SUPPLEMENTATION PROTECTED FROM NEPHROTOXIC AKI. WE NOW REVIEW THE FUNCTIONAL RELEVANCE OF HISTONE CROTONYLATION IN KIDNEY DISEASE AND OTHER PATHOPHYSIOLOGICAL CONTEXTS, AS WELL AS THE IMPLICATIONS FOR THE DEVELOPMENT OF NOVEL THERAPEUTIC APPROACHES. THESE STUDIES PROVIDE INSIGHTS INTO THE OVERALL ROLE OF HISTONE CROTONYLATION IN HEALTH AND DISEASE. 2020 12 5951 29 TARGETING THE RENIN-ANGIOTENSIN-ALDOSTERONE SYSTEM TO PREVENT HYPERTENSION AND KIDNEY DISEASE OF DEVELOPMENTAL ORIGINS. THE RENIN-ANGIOTENSIN-ALDOSTERONE SYSTEM (RAAS) IS IMPLICATED IN HYPERTENSION AND KIDNEY DISEASE. THE DEVELOPING KIDNEY CAN BE PROGRAMMED BY VARIOUS EARLY-LIFE INSULTS BY SO-CALLED RENAL PROGRAMMING, RESULTING IN HYPERTENSION AND KIDNEY DISEASE IN ADULTHOOD. THIS THEORY IS KNOWN AS DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE (DOHAD). CONVERSELY, EARLY RAAS-BASED INTERVENTIONS COULD REVERSE PROGRAM PROCESSES TO PREVENT A DISEASE FROM OCCURRING BY SO-CALLED REPROGRAMMING. IN THE CURRENT REVIEW, WE MAINLY SUMMARIZE (1) THE CURRENT KNOWLEDGE ON THE RAAS IMPLICATED IN RENAL PROGRAMMING; (2) CURRENT EVIDENCE SUPPORTING THE CONNECTIONS BETWEEN THE ABERRANT RAAS AND OTHER MECHANISMS BEHIND RENAL PROGRAMMING, SUCH AS OXIDATIVE STRESS, NITRIC OXIDE DEFICIENCY, EPIGENETIC REGULATION, AND GUT MICROBIOTA DYSBIOSIS; AND (3) AN OVERVIEW OF HOW RAAS-BASED REPROGRAMMING INTERVENTIONS MAY PREVENT HYPERTENSION AND KIDNEY DISEASE OF DEVELOPMENTAL ORIGINS. TO ACCELERATE THE TRANSITION OF RAAS-BASED INTERVENTIONS FOR PREVENTION OF HYPERTENSION AND KIDNEY DISEASE, AN EXTENDED COMPREHENSION OF THE RAAS IMPLICATED IN RENAL PROGRAMMING IS NEEDED, AS WELL AS A GREATER FOCUS ON FURTHER CLINICAL TRANSLATION. 2021 13 4381 50 MITOCHONDRIAL DYSFUNCTION AND THE AKI-TO-CKD TRANSITION. ACUTE KIDNEY INJURY (AKI) HAS BEEN WIDELY RECOGNIZED AS AN IMPORTANT RISK FACTOR FOR THE OCCURRENCE AND DEVELOPMENT OF CHRONIC KIDNEY DISEASE (CKD). EVEN MILDER AKI HAS ADVERSE CONSEQUENCES AND COULD PROGRESS TO RENAL FIBROSIS, WHICH IS THE ULTIMATE COMMON PATHWAY FOR VARIOUS TERMINAL KIDNEY DISEASES. THUS, IT IS URGENT TO DEVELOP A STRATEGY TO HINDER THE TRANSITION FROM AKI TO CKD. SOME MECHANISMS OF THE AKI-TO-CKD TRANSITION HAVE BEEN REVEALED, SUCH AS NEPHRON LOSS, CELL CYCLE ARREST, PERSISTENT INFLAMMATION, ENDOTHELIAL INJURY WITH VASCULAR RAREFACTION, AND EPIGENETIC CHANGES. PREVIOUS STUDIES HAVE ELUCIDATED THE PIVOTAL ROLE OF MITOCHONDRIA IN ACUTE INJURIES AND DEMONSTRATED THAT THE FITNESS OF THIS ORGANELLE IS A MAJOR DETERMINANT IN BOTH THE PATHOGENESIS AND RECOVERY OF ORGAN FUNCTION. RECENT RESEARCH HAS SUGGESTED THAT DAMAGE TO MITOCHONDRIAL FUNCTION IN EARLY AKI IS A CRUCIAL FACTOR LEADING TO TUBULAR INJURY AND PERSISTENT RENAL INSUFFICIENCY. DYSREGULATION OF MITOCHONDRIAL HOMEOSTASIS, ALTERATIONS IN BIOENERGETICS, AND ORGANELLE STRESS CROSS TALK CONTRIBUTE TO THE AKI-TO-CKD TRANSITION. IN THIS REVIEW, WE FOCUS ON THE PATHOPHYSIOLOGY OF MITOCHONDRIA IN RENAL RECOVERY AFTER AKI AND PROGRESSION TO CKD, CONFIRMING THAT TARGETING MITOCHONDRIA REPRESENTS A POTENTIALLY EFFECTIVE THERAPEUTIC STRATEGY FOR THE PROGRESSION OF AKI TO CKD. 2020 14 3466 43 HYPOXIA AS A KEY PLAYER IN THE AKI-TO-CKD TRANSITION. RECENT CLINICAL AND ANIMAL STUDIES HAVE SHOWN THAT ACUTE KIDNEY INJURY (AKI), EVEN IF FOLLOWED BY COMPLETE RECOVERY OF RENAL FUNCTION, CAN EVENTUALLY RESULT IN CHRONIC KIDNEY DISEASE (CKD). RENAL HYPOXIA IS EMERGING AS A KEY PLAYER IN THE PATHOPHYSIOLOGY OF THE AKI-TO-CKD TRANSITION. CAPILLARY RAREFACTION AFTER AKI EPISODES INDUCES RENAL HYPOXIA, WHICH CAN IN TURN PROFOUNDLY AFFECT TUBULAR EPITHELIAL CELLS, (MYO)FIBROBLASTS, AND INFLAMMATORY CELLS, CULMINATING IN TUBULOINTERSTITIAL FIBROSIS, I.E., PROGRESSION TO CKD. DAMAGED TUBULAR EPITHELIAL CELLS THAT FAIL TO REDIFFERENTIATE MIGHT SUPPLY A DECREASED AMOUNT OF VASCULAR ENDOTHELIAL GROWTH FACTOR AND CONTRIBUTE TO CAPILLARY RAREFACTION, THUS AGGRAVATING HYPOXIA AND FORMING A VICIOUS CYCLE. MOUNTING EVIDENCE ALSO SHOWS THAT EPIGENETIC CHANGES ARE CLOSELY RELATED TO RENAL HYPOXIA IN THE PATHOPHYSIOLOGY OF CKD PROGRESSION. ANIMAL EXPERIMENTS SUGGEST THAT TARGETING HYPOXIA IS A PROMISING STRATEGY TO BLOCK THE TRANSITION FROM AKI TO CKD. HOWEVER, THE PRECISE MECHANISMS BY WHICH HYPOXIA INDUCES THE AKI-TO-CKD TRANSITION AND BY WHICH HYPOXIA-INDUCIBLE FACTOR ACTIVATION CAN EXERT A PROTECTIVE EFFECT IN THIS CONTEXT SHOULD BE CLARIFIED IN FURTHER STUDIES. 2014 15 4749 31 NOVEL PROSPECTS FOR SCARLESS WOUND HEALING: THE ROLES OF MYOFIBROBLASTS AND ADIPOCYTES. DISTURBANCES OR DEFECTS IN THE PROCESS OF WOUND REPAIR CAN DISRUPT THE DELICATE BALANCE OF CELLS AND MOLECULES NECESSARY FOR COMPLETE WOUND HEALING, THUS LEADING TO CHRONIC WOUNDS OR FIBROTIC SCARS. MYOFIBROBLASTS ARE ONE OF THE MOST IMPORTANT CELLS INVOLVED IN FIBROTIC SCARS, AND REPROGRAMMING PROVIDES A POTENTIAL AVENUE TO INCREASE MYOFIBROBLAST CLEARANCE. ALTHOUGH MYOFIBROBLASTS HAVE LONG BEEN RECOGNIZED AS TERMINALLY DIFFERENTIATED CELLS, RECENT STUDIES HAVE SHOWN THAT MYOFIBROBLASTS HAVE THE CAPACITY TO BE REPROGRAMMED INTO ADIPOCYTES. THIS REVIEW INTENDS TO SUMMARIZE THE POTENTIAL OF REPROGRAMMING MYOFIBROBLASTS INTO ADIPOCYTES. WE WILL DISCUSS MYOFIBROBLAST LINEAGE TRACING, AS WELL AS THE KNOWN MECHANISMS UNDERLYING ADIPOCYTE REGENERATION FROM MYOFIBROBLASTS. IN ADDITION, WE INVESTIGATED DIFFERENT CHANGES IN MYOFIBROBLAST GENE EXPRESSION, TRANSCRIPTIONAL REGULATORS, SIGNALLING PATHWAYS AND EPIGENETIC REGULATORS DURING SKIN WOUND HEALING. IN THE FUTURE, MYOFIBROBLAST REPROGRAMMING IN WOUND HEALING WILL BE BETTER UNDERSTOOD AND APPRECIATED, WHICH MAY PROVIDE NEW IDEAS FOR THE TREATMENT OF SCARLESS WOUND HEALING. 2022 16 6451 45 THERAPIES TARGETING EPIGENETIC ALTERATIONS IN ACUTE KIDNEY INJURY-TO-CHRONIC KIDNEY DISEASE TRANSITION. ACUTE KIDNEY INJURY (AKI) WAS PREVIOUSLY THOUGHT TO BE A MERELY TRANSIENT EVENT; HOWEVER, RECENT EPIDEMIOLOGICAL EVIDENCE SUPPORTS THE EXISTENCE OF A CAUSAL RELATIONSHIP BETWEEN AKI EPISODES AND SUBSEQUENT PROGRESSION TO CHRONIC KIDNEY DISEASE (CKD). ALTHOUGH THE PATHOPHYSIOLOGY OF THIS AKI-TO-CKD TRANSITION IS NOT FULLY UNDERSTOOD, IT IS MEDIATED BY THE INTERPLAY AMONG MULTIPLE COMPONENTS OF THE KIDNEY INCLUDING TUBULAR EPITHELIAL CELLS, ENDOTHELIAL CELLS, PERICYTES, INFLAMMATORY CELLS, AND MYOFIBROBLASTS. EPIGENETIC ALTERATIONS INCLUDING HISTONE MODIFICATION, DNA METHYLATION, NON-CODING RNAS, AND CHROMATIN CONFORMATIONAL CHANGES, ARE ALSO EXPECTED TO BE LARGELY INVOLVED IN THE PATHOPHYSIOLOGY AS A "MEMORY" OF THE INITIAL INJURY THAT CAN PERSIST AND PREDISPOSE TO CHRONIC PROGRESSION OF FIBROSIS. EACH EPIGENETIC MODIFICATION HAS A GREAT POTENTIAL AS A THERAPEUTIC TARGET OF AKI-TO-CKD TRANSITION; TIMELY AND TARGET-SPECIFIC EPIGENETIC INTERVENTIONS TO THE VARIOUS TEMPORAL STAGES OF AKI-TO-CKD TRANSITION WILL BE THE KEY TO FUTURE THERAPEUTIC APPLICATIONS IN CLINICAL PRACTICE. THIS REVIEW ELABORATES ON THE LATEST KNOWLEDGE OF EACH MECHANISM AND THE CURRENTLY AVAILABLE THERAPEUTIC AGENTS THAT TARGET EPIGENETIC MODIFICATION IN THE CONTEXT OF AKI-TO-CKD TRANSITION. FURTHER STUDIES WILL ELUCIDATE MORE DETAILED MECHANISMS AND NOVEL THERAPEUTIC TARGETS OF AKI-TO-CKD TRANSITION. 2022 17 3874 29 KAPOSI'S SARCOMA-ASSOCIATED HERPESVIRUS IMMEDIATE EARLY PROTEINS TRIGGER FOXQ1 EXPRESSION IN ORAL EPITHELIAL CELLS, ENGAGING IN A NOVEL LYTIC CYCLE-SUSTAINING POSITIVE FEEDBACK LOOP. KAPOSI'S SARCOMA-ASSOCIATED HERPESVIRUS (KSHV) IS AN ONCOGENIC GAMMAHERPESVIRUS THAT CAN REPLICATE IN ORAL EPITHELIAL CELLS TO PROMOTE VIRAL TRANSMISSION VIA SALIVA. TO IDENTIFY NOVEL REGULATORS OF KSHV ORAL INFECTION, WE PERFORMED A TRANSCRIPTOME ANALYSIS OF KSHV-INFECTED PRIMARY HUMAN GINGIVAL EPITHELIAL (HGEP) CELLS, WHICH IDENTIFIED THE GENE CODING FOR THE HOST TRANSCRIPTION FACTOR FOXQ1 AS THE TOP INDUCED HOST GENE. FOXQ1 IS NEARLY UNDETECTABLE IN UNINFECTED HGEP AND TELOMERASE-IMMORTALIZED GINGIVAL KERATINOCYTES (TIGK) CELLS BUT IS HIGHLY EXPRESSED WITHIN HOURS OF KSHV INFECTION. WE FOUND THAT WHILE THE FOXQ1 PROMOTER LACKS ACTIVATING HISTONE ACETYLATION MARKS IN UNINFECTED ORAL EPITHELIAL CELLS, THESE MARKS ACCUMULATE IN THE FOXQ1 PROMOTER IN INFECTED CELLS, REVEALING A RAPID EPIGENETIC REPROGRAMMING EVENT. TO EVALUATE FOXQ1 FUNCTION, WE DEPLETED FOXQ1 IN KSHV-INFECTED TIGK CELLS, WHICH RESULTED IN REDUCED ACCUMULATION OF KSHV LYTIC PROTEINS AND VIRAL DNA OVER THE COURSE OF 4 DAYS OF INFECTION, UNCOVERING A NOVEL LYTIC CYCLE-SUSTAINING ROLE OF FOXQ1. A SCREEN OF KSHV LYTIC PROTEINS DEMONSTRATED THAT THE IMMEDIATE EARLY PROTEINS ORF45 AND REPLICATION AND TRANSCRIPTION ACTIVATOR (RTA) WERE BOTH SUFFICIENT FOR FOXQ1 INDUCTION IN ORAL EPITHELIAL CELLS, INDICATING ACTIVE INVOLVEMENT OF INCOMING AND RAPIDLY EXPRESSED FACTORS IN ALTERING HOST GENE EXPRESSION. ORF45 IS KNOWN TO SUSTAIN EXTRACELLULAR SIGNAL-REGULATED KINASE (ERK) P90 RIBOSOMAL S6 KINASE (RSK) PATHWAY ACTIVITY TO PROMOTE LYTIC INFECTION. WE FOUND THAT AN ORF45 MUTANT LACKING RSK ACTIVATION FUNCTION FAILED TO INDUCE FOXQ1 IN TIGK CELLS, REVEALING THAT ORF45 USES A SHARED MECHANISM TO RAPIDLY INDUCE BOTH HOST AND VIRAL GENES TO SUSTAIN LYTIC INFECTION IN ORAL EPITHELIAL CELLS. IMPORTANCE THE ORAL CAVITY IS A PRIMARY SITE OF INITIAL CONTACT AND ENTRY FOR MANY VIRUSES. VIRAL REPLICATION IN THE ORAL EPITHELIUM PROMOTES VIRAL SHEDDING IN SALIVA, ALLOWING INTERPERSONAL TRANSMISSION, AS WELL AS SPREAD TO OTHER CELL TYPES, WHERE CHRONIC INFECTION CAN BE ESTABLISHED. UNDERSTANDING THE REGULATION OF KSHV INFECTION IN THE ORAL EPITHELIUM WOULD ALLOW FOR THE DESIGN OF UNIVERSAL STRATEGIES TO TARGET THE FIRST STAGE OF VIRAL INFECTION, THEREBY HALTING SYSTEMIC VIRAL PATHOGENESIS. OVERALL, WE UNCOVER A NOVEL POSITIVE FEEDBACK LOOP IN WHICH IMMEDIATE EARLY KSHV FACTORS DRIVE RAPID HOST REPROGRAMMING OF ORAL EPITHELIAL CELLS TO SUSTAIN THE LYTIC CYCLE IN THE ORAL CAVITY. 2023 18 4448 31 MOLECULAR MECHANISM AND TREATMENT OF VIRAL HEPATITIS-RELATED LIVER FIBROSIS. HEPATIC FIBROSIS IS A WOUND-HEALING RESPONSE TO VARIOUS CHRONIC STIMULI, INCLUDING VIRAL HEPATITIS B OR C INFECTION. ACTIVATED MYOFIBROBLASTS, PREDOMINANTLY DERIVED FROM THE HEPATIC STELLATE CELLS (HSCS), REGULATE THE BALANCE BETWEEN MATRIX METALLOPROTEINASES AND THEIR TISSUE INHIBITORS TO MAINTAIN EXTRACELLULAR MATRIX HOMEOSTASIS. TRANSFORMING GROWTH FACTOR-BETA AND PLATELET-DERIVED GROWTH FACTOR ARE CLASSIC PROFIBROGENIC SIGNALS THAT ACTIVATE HSC PROLIFERATION. IN ADDITION, PROINFLAMMATORY CYTOKINES AND CHEMOKINES COORDINATE MACROPHAGES, T CELLS, NK/NKT CELLS, AND LIVER SINUSOIDAL ENDOTHELIAL CELLS IN COMPLEX FIBROGENIC AND REGRESSION PROCESSES. IN ADDITION, FIBROGENESIS INVOLVES ANGIOGENESIS, METABOLIC REPROGRAMMING, AUTOPHAGY, MICRORNA, AND EPIGENETIC REGULATIONS. HEPATIC INFLAMMATION IS THE DRIVING FORCE BEHIND LIVER FIBROSIS; HOWEVER, HOST SINGLE NUCLEOTIDE POLYMORPHISMS AND VIRAL FACTORS, INCLUDING THE GENOTYPE, VIRAL LOAD, VIRAL MUTATION, AND VIRAL PROTEINS, HAVE BEEN ASSOCIATED WITH FIBROSIS PROGRESSION. ELIMINATING THE UNDERLYING ETIOLOGY IS THE MOST CRUCIAL ANTIFIBROTIC THERAPY. GROWING EVIDENCE HAS INDICATED THAT PERSISTENT VIRAL SUPPRESSION WITH ANTIVIRAL THERAPY CAN RESULT IN FIBROSIS REGRESSION, REDUCED LIVER DISEASE PROGRESSION, DECREASED HEPATOCELLULAR CARCINOMA, AND IMPROVED CHANCES OF SURVIVAL. PRECLINICAL STUDIES AND CLINICAL TRIALS ARE CURRENTLY EXAMINING SEVERAL INVESTIGATIONAL AGENTS THAT TARGET KEY FIBROGENIC PATHWAYS; THE RESULTS ARE PROMISING AND SHED LIGHT ON THIS DEBILITATING ILLNESS. 2014 19 2322 26 EPIGENETIC REGULATION OF HEPATIC STELLATE CELL ACTIVATION AND LIVER FIBROSIS. CHRONIC LIVER INJURY TO HEPATOCYTES OR CHOLANGIOCYTES, WHEN LEFT UNMANAGED, LEADS TO THE DEVELOPMENT OF LIVER FIBROSIS, A CONDITION CHARACTERIZED BY THE EXCESSIVE INTRAHEPATIC DEPOSITION OF EXTRACELLULAR MATRIX PROTEINS. ACTIVATED HEPATIC STELLATE CELLS CONSTITUTE THE PREDOMINANT SOURCE OF EXTRACELLULAR MATRIX IN FIBROTIC LIVERS AND THEIR TRANSITION FROM A QUIESCENT STATE DURING FIBROGENESIS IS ASSOCIATED WITH IMPORTANT ALTERATIONS IN THEIR TRANSCRIPTIONAL AND EPIGENETIC LANDSCAPE. AREAS COVERED: WE BRIEFLY DESCRIBE THE PROCESSES INVOLVED IN HEPATIC STELLATE CELL ACTIVATION AND DISCUSS OUR CURRENT UNDERSTANDING OF ALTERATIONS IN THE EPIGENETIC LANDSCAPE, I.E DNA METHYLATION, HISTONE MODIFICATIONS AND THE FUNCTIONAL ROLE OF NON-CODING RNAS THAT ACCOMPANY THIS KEY EVENT IN THE DEVELOPMENT OF CHRONIC LIVER DISEASE. EXPERT COMMENTARY: ALTHOUGH GREAT PROGRESS HAS BEEN MADE, OUR UNDERSTANDING OF THE EPIGENETIC REGULATION OF HEPATIC STELLATE CELL ACTIVATION IS LIMITED AND, THUS FAR, INSUFFICIENT TO ALLOW THE DEVELOPMENT OF EPIGENETIC DRUGS THAT CAN SELECTIVELY INTERRUPT LIVER FIBROSIS. 2016 20 1374 31 DEVELOPMENTAL PROGRAMMING OF ADULT DISEASE: REPROGRAMMING BY MELATONIN? ADULT-ONSET CHRONIC NON-COMMUNICABLE DISEASES (NCDS) CAN ORIGINATE FROM EARLY LIFE THROUGH SO-CALLED THE "DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE" (DOHAD) OR "DEVELOPMENTAL PROGRAMMING". THE DOHAD CONCEPT OFFERS THE "REPROGRAMMING" STRATEGY TO SHIFT THE TREATMENT FROM ADULTHOOD TO EARLY LIFE, BEFORE CLINICAL DISEASE IS APPARENT. MELATONIN, AN ENDOGENOUS INDOLEAMINE PRODUCED BY THE PINEAL GLAND, HAS PLEIOTROPIC BIOACTIVITIES THOSE ARE BENEFICIAL IN A VARIETY OF HUMAN DISEASES. EMERGING EVIDENCE SUPPORT THAT MELATONIN IS CLOSELY INTER-RELATED TO OTHER PROPOSED MECHANISMS CONTRIBUTING TO THE DEVELOPMENTAL PROGRAMMING OF A VARIETY OF CHRONIC NCDS. RECENT ANIMAL STUDIES HAVE BEGUN TO UNRAVEL THE MULTIFUNCTIONAL ROLES OF MELATONIN IN MANY EXPERIMENTAL MODELS OF DEVELOPMENTAL PROGRAMMING. EVEN THOUGH SOME PROGRESS HAS BEEN MADE IN RESEARCH ON MELATONIN AS A REPROGRAMMING STRATEGY TO PREVENT DOHAD-RELATED NCDS, FUTURE HUMAN STUDIES SHOULD AIM AT FILLING THE TRANSLATIONAL GAP BETWEEN ANIMAL MODELS AND CLINICAL TRIALS. HERE, WE REVIEW SEVERAL KEY THEMES ON THE REPROGRAMMING EFFECTS OF MELATONIN IN DOHAD RESEARCH. WE HAVE PARTICULARLY FOCUSED ON THE FOLLOWING AREAS: MECHANISMS OF DEVELOPMENTAL PROGRAMMING; THE INTERRELATIONSHIP BETWEEN MELATONIN AND MECHANISMS UNDERLYING DEVELOPMENTAL PROGRAMMING; PATHOPHYSIOLOGICAL ROLES OF MELATONIN IN PREGNANCY AND FETAL DEVELOPMENT; AND INSIGHT PROVIDED BY ANIMAL MODELS TO SUPPORT MELATONIN AS A REPROGRAMMING THERAPY. RATES OF NCDS ARE INCREASING FASTER THAN ANTICIPATED ALL OVER THE WORLD. HENCE, THERE IS AN URGENT NEED TO UNDERSTAND REPROGRAMMING MECHANISMS OF MELATONIN AND TO TRANSLATE EXPERIMENTAL RESEARCH INTO CLINICAL PRACTICE FOR HALTING A GROWING LIST OF DOHAD-RELATED NCDS. 2017