1 3990 148 LONGITUDINAL ASSOCIATIONS BETWEEN USE OF ANTIHYPERTENSIVE, ANTIDIABETIC, AND LIPID-LOWERING MEDICATIONS AND BIOLOGICAL AGING. AGING IS A MAJOR RISK FACTOR FOR MANY CHRONIC DISEASES. THIS STUDY AIMED TO EXAMINE THE EFFECTS OF ANTIHYPERTENSIVE, LIPID-LOWERING, AND ANTIDIABETIC DRUGS ON BIOLOGICAL AGING. WE INCLUDED 672 PARTICIPANTS AND 2746 REPEATED MEASUREMENTS FROM THE SWEDISH ADOPTION/TWIN STUDY OF AGING. SELF-REPORTED MEDICINE USES WERE CATEGORIZED INTO ANTIDIABETIC, ANTIHYPERTENSIVE, AND LIPID-LOWERING DRUGS. A TOTAL OF 12 BIOMARKERS FOR BIOLOGICAL AGING (BA BIOMARKERS) WERE INCLUDED AS OUTCOMES. CONDITIONAL GENERALIZED ESTIMATING EQUATIONS WERE APPLIED CONDITIONING ON INDIVIDUALS TO ESTIMATE THE DRUG EFFECT ON BA BIOMARKER LEVEL WITHIN THE SAME PERSON WHEN USING OR NOT USING THE DRUG. CHRONOLOGICAL AGE, BODY MASS INDEX, SMOKING STATUS, NUMBER OF MULTIPLE MEDICATION USES, BLOOD PRESSURE, BLOOD GLUCOSE LEVEL, AND APOB/APOA RATIO WERE ADJUSTED FOR AS COVARIATES IN THE MODEL. OVERALL, USING ANTIHYPERTENSIVE DRUGS WAS ASSOCIATED WITH A DECREASE IN ONE DNA-METHYLATION AGE (PCGRIMAGE: BETA = - 0.39, 95%CI = - 0.67 TO - 0.12). WHEN LOOKING INTO DRUG SUBCATEGORIES, CALCIUM CHANNEL BLOCKERS (CCBS) WERE ASSOCIATED WITH A DECREASE IN SEVERAL DNA-METHYLATION AGES (PCHORVATHAGE BETA = - 1.28, 95%CI = - 2.34 TO - 0.21; PCSKIN&BLOODAGE BETA = - 1.34, 95%CI = - 2.61 TO - 0.07; PCPHENOAGE BETA = - 1.74, 95%CI = - 2.58 TO - 0.89; PCGRIMAGE BETA = - 0.57, 95%CI = - 0.96 TO - 0.17) AND IN FUNCTIONAL BIOLOGICAL AGES (FUNCTIONAL AGE INDEX BETA = - 2.18, 95%CI = - 3.65 TO - 0.71; FRAILTY INDEX BETA = - 1.31, 95%CI = - 2.43 TO - 0.18). HOWEVER, THE RESULTS WITHIN OTHER DRUG SUBCATEGORIES WERE INCONSISTENT. CALCIUM CHANNEL BLOCKERS MAY DECREASE BIOLOGICAL AGING CAPTURED BY THE BA BIOMARKERS MEASURED AT EPIGENETIC AND FUNCTIONAL LEVEL. FUTURE STUDIES ARE WARRANTED TO CONFIRM THESE EFFECTS AND UNDERSTAND THE UNDERLYING BIOLOGICAL MECHANISMS. 2023 2 615 28 BIOACTIVE COMPONENTS AND POSSIBLE ACTIVITIES OF MEDICINAL MUSHROOMS IN ALLEVIATING THE PATHOGENESIS OF NONALCOHOLIC FATTY LIVER DISEASE (REVIEW). NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS A GLOBAL DISEASE THAT IS CLOSELY ASSOCIATED WITH OBESITY, TYPE 2 DIABETES MELLITUS, AND CARDIOVASCULAR DISEASE. EXCESSIVE FAT ACCUMULATION, FATTY DEGENERATION, AND CHRONIC INFLAMMATION OF THE LIVER ACTIVATE THE PROGRESSION OF NAFLD FROM SIMPLE STEATOSIS TO NONALCOHOLIC STEATOHEPATITIS AND FURTHER TO LIVER FIBROSIS, CIRRHOSIS, AND HEPATOCELLULAR CARCINOMA. THE UNDERLYING MECHANISM FOR THE DEVELOPMENT AND PROGRESSION OF NAFLD IS COMPLEX AND A MULTIPLE-HIT HYPOTHESIS INCLUDING DIETARY, ENVIRONMENTAL, GENETIC, AND EPIGENETIC FACTORS HAS BEEN RAISED. INCREASED DE NOVO LIPOGENESIS, DECREASED LIPOLYSIS, AND INSULIN RESISTANCE ARE ASSOCIATED WITH THE DEVELOPMENT OF NAFLD. CURRENTLY, NO EFFECTIVE DRUG THERAPIES ARE APPROVED FOR THE TREATMENT OF NAFLD. SEVERAL MEDICINAL MUSHROOMS HAVE BEEN FOUND TO HAVE SIGNIFICANT WEIGHT CONTROL AND GUT MICROBE MODULATION ACTIVITIES AND ANTIHYPERTRIGLYCERIDEMIC, ANTIHYPERGLYCEMIC, ANTIOXIDANT, AND ANTI-INFLAMMATORY EFFECTS, WHICH MAY BE USEFUL TO PREVENT AND ATTENUATE THE DEVELOPMENT AND PROGRESSION OF NAFLD. THESE BENEFICIAL EFFECTS ARE ASSOCIATED WITH MUSHROOMS' BIOACTIVE COMPONENTS, SUCH AS POLYSACCHARIDES, DIETARY FIBERS, ANTIOXIDANTS, AND OTHER COMPOUNDS DERIVED FROM FRUITING BODIES, CULTURED MYCELIUM, AND/OR BROTH OF MEDICINAL MUSHROOMS. THIS ARTICLE PRESENTS AN OVERVIEW OF MULTIPLE ASPECTS OF NAFLD, INCLUDING THE EPIDEMIOLOGY, PATHOGENESIS, MANAGEMENT, AND TREATMENT. THE BIOACTIVE COMPONENTS AND POSSIBLE ACTIVITIES OF MEDICINAL MUSHROOMS IN ALLEVIATING THE PATHOGENESIS OF NAFLD ARE ALSO REVIEWED. 2021 3 5051 32 PHARMACOLOGICAL RESCUE OF NOCICEPTIVE HYPERSENSITIVITY AND OXYTOCIN ANALGESIA IMPAIRMENT IN A RAT MODEL OF NEONATAL MATERNAL SEPARATION. OXYTOCIN (OT), KNOWN FOR ITS NEUROHORMONAL EFFECTS AROUND BIRTH, HAS RECENTLY BEEN SUGGESTED FOR BEING A CRITICAL DETERMINANT IN NEURODEVELOPMENTAL DISORDERS. THIS HYPOTHALAMIC NEUROPEPTIDE EXERTS A POTENT ANALGESIC EFFECT THROUGH AN ACTION ON THE NOCICEPTIVE SYSTEM. THIS ENDOGENOUS CONTROL OF PAIN HAS AN IMPORTANT ADAPTIVE VALUE BUT MIGHT BE ALTERED BY EARLY LIFE STRESS, POSSIBLY CONTRIBUTING TO ITS LONG-TERM CONSEQUENCES ON PAIN RESPONSES AND ASSOCIATED COMORBIDITIES. WE TESTED THIS HYPOTHESIS USING A RAT MODEL OF NEONATAL MATERNAL SEPARATION (NMS) KNOWN TO INDUCE LONG-TERM CONSEQUENCES ON SEVERAL BRAIN FUNCTIONS INCLUDING CHRONIC STRESS, ANXIETY, ALTERED SOCIAL BEHAVIOR, AND VISCERAL HYPERSENSITIVITY. WE FOUND THAT ADULT RATS WITH A HISTORY OF NMS WERE HYPERSENSITIVE TO NOXIOUS MECHANICAL/THERMAL HOT STIMULI AND TO INFLAMMATORY PAIN. WE FAILED TO OBSERVE OT RECEPTOR-MEDIATED STRESS-INDUCED ANALGESIA AND OT ANTIHYPERALGESIA AFTER CARRAGEENAN INFLAMMATION. THESE ALTERATIONS WERE PARTIALLY RESCUED IF NMS PUPS WERE TREATED BY INTRAPERITONEAL DAILY INJECTION DURING NMS WITH OT OR ITS DOWNSTREAM SECOND MESSENGER ALLOPREGNANOLONE. THE INVOLVEMENT OF EPIGENETIC CHANGES IN THESE ALTERATIONS WAS CONFIRMED SINCE NEONATAL TREATMENT WITH THE HISTONE DEACETYLASE INHIBITOR SAHA, NOT ONLY NORMALIZED NOCICEPTIVE SENSITIVITIES BUT ALSO RESTORED OT RECEPTOR-MEDIATED STRESS-INDUCED ANALGESIA AND THE ENDOGENOUS ANTIHYPERALGESIA IN INFLAMED NMS RATS. THERE IS GROWING EVIDENCE IN THE LITERATURE THAT EARLY LIFE STRESS MIGHT IMPAIR THE NOCICEPTIVE SYSTEM ONTOGENY AND FUNCTION. THIS STUDY SUGGESTS THAT THESE ALTERATIONS MIGHT BE RESTORED WHILE STIMULATING OT RECEPTOR SIGNALING OR HISTONE DEACETYLASE INHIBITORS, USING MOLECULES THAT ARE CURRENTLY AVAILABLE OR PART OF CLINICAL TRIALS FOR OTHER PATHOLOGIES. 2018 4 176 41 ACCELERATED DNA METHYLATION AGE AND MEDICATION USE AMONG AFRICAN AMERICANS. DNA METHYLATION AGE ACCELERATION, THE DISCREPANCY BETWEEN EPIGENETIC AGE AND CHRONOLOGICAL AGE, IS ASSOCIATED WITH MORTALITY AND CHRONIC DISEASES, INCLUDING DIABETES, HYPERTENSION, AND HYPERLIPIDEMIA. IN THIS STUDY, WE INVESTIGATE WHETHER MEDICATIONS COMMONLY USED TO TREAT THESE DISEASES IN 15 DRUG CATEGORIES ARE ASSOCIATED WITH FOUR EPIGENETIC AGE ACCELERATION MEASURES: HORVATHAGE ACCELERATION (HORVATHAA), HANNUMAGE ACCELERATION (HANNUMAA), PHENOAGE ACCELERATION, AND GRIMAGE ACCELERATION (GRIMAA) USING CROSS-SECTIONAL (PHASE 1, N=1,100) AND LONGITUDINAL (PHASES 1 AND 2, N=266) DATA FROM AFRICAN AMERICANS IN THE GENETIC EPIDEMIOLOGY NETWORK OF ARTERIOPATHY (GENOA) STUDY. IN CROSS-SECTIONAL ANALYSES, THE USE OF CALCIUM CHANNEL BLOCKERS WAS ASSOCIATED WITH 1.27 YEARS LOWER HANNUMAA AFTER ADJUSTING FOR COVARIATES INCLUDING HYPERTENSION (P=0.001). LONGITUDINAL ANALYSES SHOWED THAT, COMPARED TO THOSE WHO NEVER USED ANTIHYPERTENSIVES, THOSE WHO STARTED TO TAKE ANTIHYPERTENSIVES AFTER PHASE 1 HAD A 0.97-YEAR DECREASE IN GRIMAA (P=0.007). IN ADDITION, COMPARED TO THOSE WHO NEVER USED NSAID ANALGESICS, THOSE WHO STARTED TO TAKE THEM AFTER PHASE 1 HAD A 2.61-YEAR INCREASE IN HORVATHAA (P=0.0005). OUR STUDY DEMONSTRATES THAT THREE COMMONLY USED MEDICATIONS ARE ASSOCIATED WITH DNAM AGE ACCELERATION IN AFRICAN AMERICANS AND SHEDS LIGHT ON THE POTENTIAL EPIGENETIC EFFECTS OF PHARMACEUTICALS ON AGING AT THE CELLULAR LEVEL. 2021 5 4016 29 LOW-DOSE HYDRALAZINE PREVENTS FIBROSIS IN A MURINE MODEL OF ACUTE KIDNEY INJURY-TO-CHRONIC KIDNEY DISEASE PROGRESSION. ACUTE KIDNEY INJURY (AKI) AND PROGRESSIVE CHRONIC KIDNEY DISEASE (CKD) ARE INTRINSICALLY TIED SYNDROMES. IN THIS REGARD, THE ACUTELY INJURED KIDNEY OFTEN DOES NOT ACHIEVE ITS FULL REGENERATIVE CAPACITY AND AKI DIRECTLY TRANSITIONS INTO PROGRESSIVE CKD ASSOCIATED WITH TUBULOINTERSTITIAL FIBROSIS. UNDERLYING MECHANISMS OF SUCH AKI-TO-CKD PROGRESSION ARE STILL INCOMPLETELY UNDERSTOOD AND SPECIFIC THERAPEUTIC INTERVENTIONS ARE STILL ELUSIVE. BECAUSE EPIGENETIC MODIFICATIONS PLAY A ROLE IN MAINTAINING TISSUE FIBROSIS, WE USED A MURINE MODEL OF ISCHEMIA-REPERFUSION INJURY TO DETERMINE WHETHER ABERRANT PROMOTER METHYLATION OF RASAL1 CONTRIBUTES CAUSALLY TO THE SWITCH BETWEEN PHYSIOLOGICAL REGENERATION AND TUBULOINTERSTITIAL FIBROGENESIS, A HALLMARK OF AKI-TO-CKD PROGRESSION. IT IS KNOWN THAT THE ANTIHYPERTENSIVE DRUG HYDRALAZINE HAS DEMETHYLATING ACTIVITY, AND THAT ITS OPTIMUM DEMETHYLATING ACTIVITY OCCURS AT CONCENTRATIONS BELOW BLOOD PRESSURE-LOWERING DOSES. ADMINISTRATION OF LOW-DOSE HYDRALAZINE EFFECTIVELY INDUCED EXPRESSION OF HYDROXYLASE TET3, WHICH CATALYZED RASAL1 HYDROXYMETHYLATION AND SUBSEQUENT RASAL1 PROMOTER DEMETHYLATION. HYDRALAZINE-INDUCED CPG PROMOTER DEMETHYLATION SUBSEQUENTLY ATTENUATED RENAL FIBROSIS AND PRESERVED EXCRETORY RENAL FUNCTION INDEPENDENT OF ITS BLOOD PRESSURE-LOWERING EFFECTS. IN COMPARISON, RASAL1 DEMETHYLATION AND INHIBITION OF TUBULOINTERSTITIAL FIBROSIS WAS NOT DETECTED UPON ADMINISTRATION OF THE ANGIOTENSIN-CONVERTING ENZYME INHIBITOR RAMIPRIL IN THIS MODEL. THUS, RASAL1 PROMOTER METHYLATION AND SUBSEQUENT TRANSCRIPTIONAL RASAL1 SUPPRESSION PLAYS A CAUSAL ROLE IN AKI-TO-CKD PROGRESSION. 2017 6 6446 35 THERAPEUTIC INSIGHTS IN CHRONIC KIDNEY DISEASE PROGRESSION. CHRONIC KIDNEY DISEASE (CKD) HAS BEEN RECOGNIZED AS A LEADING PUBLIC HEALTH PROBLEM WORLDWIDE. THROUGH ITS EFFECT ON CARDIOVASCULAR RISK AND END-STAGE KIDNEY DISEASE, CKD DIRECTLY AFFECTS THE GLOBAL BURDEN OF MORBIDITY AND MORTALITY. CLASSICAL OPTIMAL MANAGEMENT OF CKD INCLUDES BLOOD PRESSURE CONTROL, TREATMENT OF ALBUMINURIA WITH ANGIOTENSIN-CONVERTING ENZYME INHIBITORS OR ANGIOTENSIN II RECEPTOR BLOCKERS, AVOIDANCE OF POTENTIAL NEPHROTOXINS AND OBESITY, DRUG DOSING ADJUSTMENTS, AND CARDIOVASCULAR RISK REDUCTION. DIABETES MIGHT ACCOUNT FOR MORE THAN HALF OF CKD BURDEN, AND OBESITY IS THE MOST IMPORTANT PROMPTED FACTOR FOR THIS DISEASE. NEW ANTIHYPERGLYCEMIC DRUGS, SUCH AS SODIUM-GLUCOSE-COTRANSPORTER 2 INHIBITORS HAVE SHOWN TO SLOW THE DECLINE OF GFR, BRINGING ADDITIONAL BENEFIT IN WEIGHT REDUCTION, CARDIOVASCULAR, AND OTHER KIDNEY OUTCOMES. ON THE OTHER HAND, A NEW GENERATION OF NON-STEROIDAL MINERALOCORTICOID RECEPTOR ANTAGONIST HAS RECENTLY BEEN DEVELOPED TO OBTAIN A SELECTIVE RECEPTOR INHIBITION REDUCING SIDE EFFECTS LIKE HYPERKALEMIA AND THEREBY MAKING THE DRUGS SUITABLE FOR ADMINISTRATION TO CKD PATIENTS. MOREOVER, TWO NEW POTASSIUM-LOWERING THERAPIES HAVE SHOWN TO IMPROVE TOLERANCE, ALLOWING FOR HIGHER DOSAGE OF RENIN-ANGIOTENSIN SYSTEM INHIBITORS AND THEREFORE ENHANCING THEIR NEPHROPROTECTIVE EFFECT. REGARDLESS OF ITS CAUSE, CKD IS CHARACTERIZED BY REDUCED RENAL REGENERATION CAPACITY, MICROVASCULAR DAMAGE, OXIDATIVE STRESS AND INFLAMMATION, RESULTING IN FIBROSIS AND PROGRESSIVE, AND IRREVERSIBLE NEPHRON LOSS. THEREFORE, A HOLISTIC APPROACH SHOULD BE TAKEN TARGETING THE DIVERSE PROCESSES AND BIOLOGICAL CONTEXTS THAT ARE ASSOCIATED WITH CKD PROGRESSION. TO DATE, THERAPEUTIC INTERVENTIONS WHEN TUBULOINTERSTITIAL FIBROSIS IS ALREADY ESTABLISHED HAVE PROVED TO BE INSUFFICIENT, THUS RESEARCH EFFORT SHOULD FOCUS ON UNRAVELING EARLY DISEASE MECHANISMS. AN ARRAY OF NOVEL THERAPEUTIC APPROACHES TARGETING EPIGENETIC REGULATORS ARE NOW UNDERGOING PHASE II OR PHASE III TRIALS AND MIGHT PROVIDE A SIMULTANEOUS REGULATORY ACTIVITY THAT COORDINATELY REGULATE DIFFERENT ASPECTS OF CKD PROGRESSION. 2021 7 1389 33 DIABETIC RETINOPATHY AND SYSTEMIC FACTORS. DIABETIC RETINOPATHY, AN OCULARDISEASE, IS GOVERNED BY SYSTEMIC AS WELL AS LOCAL OCULAR FACTORS. THESE INCLUDE PRIMARILY CHRONIC LEVELS OF BLOOD GLUCOSE. INDIVIDUALS WITH CHRONICALLY ELEVATED BLOOD GLUCOSE LEVELS HAVE SUBSTANTIALLY MORE, AND MORE SEVERE, RETINOPATHY THAN THOSE WITH LOWER BLOOD GLUCOSE LEVELS. THE RELATIONSHIP OF BLOOD GLUCOSE TO RETINOPATHY IS CONTINUOUS, WITH NO THRESHOLD ALTHOUGH INDIVIDUALS WITH HEMOGLOBIN A1C LEVELS (A MEASURE OF CHRONIC GLYCEMIA) <6.5%, GENERALLY DEVELOP LITTLE OR NO RETINOPATHY. BLOOD PRESSURE LEVELS HAVE BEEN CLAIMED TO INFLUENCE RETINOPATHY DEVELOPMENT AND PROGRESSION, BUT MULTIPLE CONTROLLED CLINICAL TRIALS OF ANTIHYPERTENSIVE AGENTS IN DIABETIC SUBJECTS HAVE PRODUCED ONLY WEAK EVIDENCE OF BENEFIT FROM BLOOD PRESSURE LOWERING ON THE INCIDENCE AND PROGRESSION OF DIABETIC RETINOPATHY. ELEVATED BLOOD LIPIDS SEEM TO PLAY A ROLE IN THE PROGRESSION OF RETINOPATHY, AND TWO TRIALS OF FENOFIBRATE, A LIPID-LOWERING AGENT THAT HAS NOT PROVED EFFECTIVE IN PREVENTING CARDIOVASCULAR DISEASE, HAVE SHOWN BENEFIT IN PREVENTING RETINOPATHY PROGRESSION. THE MECHANISM OF THIS EFFECT MAY NOT, HOWEVER, BE DIRECTLY RELATED TO THE REDUCTION IN BLOOD LIPIDS. FINALLY, THERE IS STRONG, BUT ONLY CIRCUMSTANTIAL, EVIDENCE FOR A GENETIC OR EPIGENETIC INFLUENCE ON THE PATHOGENESIS OF DIABETIC RETINOPATHY. DESPITE THE POWER OF LARGE-SCALE EPIDEMIOLOGIC STUDIES AND MODERN MOLECULAR BIOLOGICAL AND COMPUTATIONAL TECHNIQUES, THE GENE OR GENES, WHICH PREDISPOSE OR PROTECT AGAINST THE DEVELOPMENT AND PROGRESSION OF DIABETIC RETINOPATHY REMAIN ELUSIVE. 2015 8 4338 27 MICROVASCULAR BARRIER PROTECTION BY MICRORNA-183 VIA FOXO1 REPRESSION: A PATHWAY DISTURBED IN NEUROPATHY AND COMPLEX REGIONAL PAIN SYNDROME. BLOOD NERVE BARRIER DISRUPTION AND EDEMA ARE COMMON IN NEUROPATHIC PAIN AS WELL AS IN COMPLEX REGIONAL PAIN SYNDROME (CRPS). MICRORNAS (MIRNA) ARE EPIGENETIC MULTITARGET SWITCHES CONTROLLING NEURONAL AND NON-NEURONAL CELLS IN PAIN. THE MIR-183 COMPLEX ATTENUATES HYPEREXCITABILITY IN NOCICEPTORS, BUT ADDITIONAL NON-NEURONAL EFFECTS VIA TRANSCRIPTION FACTORS COULD CONTRIBUTE AS WELL. THIS STUDY EXPLORED EXOSOMAL MIR-183 IN CRPS AND MURINE NEUROPATHY, ITS EFFECT ON THE MICROVASCULAR BARRIER VIA TRANSCRIPTION FACTOR FOXO1 AND TIGHT JUNCTION PROTEIN CLAUDIN-5, AND ITS ANTIHYPERALGESIC POTENTIAL. SCIATIC MIR-183 DECREASED AFTER CCI. SUBSTITUTION WITH PERINEURAL MIR-183 MIMIC ATTENUATED MECHANICAL HYPERSENSITIVITY AND RESTORED BLOOD NERVE BARRIER FUNCTION. IN VITRO, SERUM FROM CCI MICE UND CRPS PATIENTS WEAKENED THE MICROVASCULAR BARRIER OF MURINE CEREBELLAR ENDOTHELIAL CELLS, INCREASED ACTIVE FOXO1 AND REDUCED CLAUDIN-5, CONCOMITANT WITH A LACK OF EXOSOMAL MIR-183 IN CRPS PATIENTS. CELLULAR STRESS ALSO COMPROMISED THE MICROVASCULAR BARRIER WHICH WAS RESCUED EITHER BY MIR-183 MIMIC VIA FOXO1 REPRESSION OR BY PRIOR SILENCING OF FOXO1. PERSPECTIVE: LOW MIR-183 LEADING TO BARRIER IMPAIRMENT VIA FOXO1 AND SUBSEQUENT CLAUDIN-5 SUPPRESSION IS A NEW ASPECT IN THE PATHOPHYSIOLOGY OF CRPS AND NEUROPATHIC PAIN. THIS PATHWAY MIGHT HELP UNTANGLE THE WIDE SYMPTOMATIC RANGE OF CRPS AND NURTURE FURTHER RESEARCH INTO MIRNA MIMICS OR FOXO1 INHIBITORS. 2022 9 5707 30 SIRT1 AS A THERAPEUTIC TARGET IN DIABETIC COMPLICATIONS. BACKGROUND: SIRTUIN1 IS AN EPIGENETIC ENZYME INVOLVED IN HISTONE AND NONHISTONE PROTEIN DEACETYLATION. IT ACTS PRIMARILY AS A METABOLIC SENSOR, WHICH RESPONSES TO CHANGING ENERGY STATUS BY DEACETYLATING CRUCIAL TRANSCRIPTION FACTORS AND COFACTORS. IN THIS WAY, SIRTUIN1 REGULATES MITOCHONDRIAL FUNCTION AND BIOGENESIS, OXIDATIVE STRESS, INFLAMMATION, APOPTOSIS AND CELLULAR SENESCENCE. DISTURBANCE OF ALL OF THESE PHENOMENA PROMOTES THE PATHOGENESIS OF DIABETIC COMPLICATIONS. THESE DISORDERS ARE INSEPARABLY CONNECTED WITH CHRONIC HYPERGLYCEMIA, WHICH POSSESSES A STRONG EPIGENETIC DETERMINANT. OBJECTIVE: TO SUMMARIZE THE CONTEMPORARY KNOWLEDGE REGARDING THE ROLE OF SIRTUIN1 IN THE DEVELOPMENT, PROGRESSION AND THERAPY OF DIABETIC COMPLICATIONS. METHODS: WE EXTENSIVELY SEARCHED LITERATURE DESCRIBING THE IMPORTANCE OF SIRTUIN1 IN PATHOPHYSIOLOGY AND TREATMENT OF ALL KINDS OF DIABETIC COMPLICATIONS TILL SEPTEMBER 2017. WE FOCUSED ON THE EXAMPLES OF SYNTHETIC AND NATURAL COMPOUNDS-MEDIATED SIRTUIN1 UPREGULATION ALONG WITH SIRTUIN1-ASSOCIATED EPIGENETICS. RESULTS: REDUCTION OF SIRTUIN1 IS IMPLICATED IN ENDOTHELIAL DYSFUNCTION AND METABOLIC MEMORY, UNDERLYING THE DEVELOPMENT OF MICRO- AND MACROVASCULAR COMPLICATIONS. DECLINED SIRTUIN1 ALSO PARTICIPATES IN DIABETIC TESTICULAR AND ERECTILE DYSFUNCTION. SIRTUIN1 IS ELEVATED BY NATURALLY OCCURRING ANTI-OXIDANT AND ANTI-INFLAMMATORY COMPOUNDS SUCH AS RESVERATROL, TRANS-DELTA-VINIFERIN, VITAMIN D AND MORE. SIMILARLY, SIRTUIN1 LEVEL INCREASES AFTER TREATMENT WITH STANDARD ANTIHYPERGLYCEMIC (METFORMIN, EXENATIDE, LIRAGLUTIDE), ANTIHYPERTENSIVE (SARTANS), LIPID-LOWERING (FIBRATES, STATINS) AND ANTICOAGULANT (FIDARESTAT) DRUGS. REGARDING EPIGENETICS, A NUMBER OF MIRNAS TRIGGER SIRTUIN1 DECREASE, WHICH FURTHER CONTRIBUTES TO HISTONE ACETYLATION OF SIRTUIN1-REGULATED AND RELEVANT FOR DIABETES GENES. CONCLUSION: EVIDENCE STRONGLY SUGGEST THAT SIRTUIN1 UPREGULATION MAY SERVE AS A POTENT THERAPEUTIC APPROACH AGAINST DEVELOPMENT AND PROGRESSION OF DIABETIC COMPLICATIONS. 2018 10 307 33 ALBUMINURIA DOWNREGULATION OF THE ANTI-AGING FACTOR KLOTHO: THE MISSING LINK POTENTIALLY EXPLAINING THE ASSOCIATION OF PATHOLOGICAL ALBUMINURIA WITH PREMATURE DEATH. TEN PERCENT OF THE ADULT POPULATION HAS CHRONIC KIDNEY DISEASE (CKD), WHICH IS DIAGNOSED WHEN THE GLOMERULAR FILTRATION RATE (GFR) IS BELOW 60 ML/MIN PER 1.73 M(2) OR WHEN ALBUMINURIA IS ABOVE 30 MG/DAY. THE NUMERICAL THRESHOLDS WERE CHOSEN BECAUSE THEY ARE ASSOCIATED WITH AN INCREASED RISK OF CKD PROGRESSION OR PREMATURE DEATH WITHIN A WIDER SCENARIO OF ACCELERATED AGING. INDEED, CKD IS ONE OF THE FASTEST GROWING CAUSES OF DEATH WORLDWIDE. A DECREASED GFR IS ASSOCIATED WITH THE ACCUMULATION OF URAEMIC TOXINS THAT MAY PROMOTE TISSUE AND ORGAN DAMAGE. HOWEVER, CKD MAY BE DIAGNOSED WHEN THE GFR IS COMPLETELY NORMAL, AS LONG AS THERE IS PATHOLOGICAL ALBUMINURIA. A KEY UNANSWERED QUESTION TO STEM THE RISE OF CKD-ASSOCIATED DEATHS IS WHETHER THE ASSOCIATION BETWEEN ISOLATED ALBUMINURIA (WHEN THE GFR IS NORMAL) AND PREMATURE DEATH IS CAUSAL. THE RECENT DEMONSTRATION THAT ALBUMINURIA PER SE DIRECTLY SUPPRESSES THE PRODUCTION OF THE ANTI-AGING FACTOR KLOTHO BY KIDNEY TUBULAR CELLS MAY BE ONE OF THE FIRST STEPS TO ADDRESS THE CAUSALITY OF THE ALBUMINURIA-PREMATURE DEATH-ACCELERATED AGING ASSOCIATION. THIS HYPOTHESIS SHOULD BE TESTED IN INTERVENTIONAL STUDIES THAT SHOULD DRAW FROM TRANSLATIONAL SCIENCE ADVANCES. THUS, THE OBSERVATION THAT ALBUMINURIA DECREASES KLOTHO PRODUCTION THROUGH EPIGENETIC MECHANISMS IMPLIES THAT KLOTHO DOWNREGULATION MAY PERSIST AFTER THE CORRECTION OF ALBUMINURIA, AND INNOVATIVE THERAPEUTIC APPROACHES ARE NEEDED TO RESTORE KLOTHO PRODUCTION. ON THE BASIS OF RECENT LITERATURE, THESE MAY INCLUDE MANIPULATION OF NF-KAPPAB REGULATORS SUCH AS B CELL LYMPHOMA 3 PROTEIN (BCL-3), AND EPIGENETIC REGULATORS SUCH AS HISTONE DEACETYLASES, OR THE REPURPOSING OF DRUGS SUCH AS PENTOXIFYLLINE. 2020 11 4017 32 LOW-DOSE HYDRALAZINE REDUCES ALBUMINURIA AND GLOMERULOSCLEROSIS IN A MOUSE MODEL OF OBESITY-RELATED CHRONIC KIDNEY DISEASE. AIM: TO DETERMINE, USING A MOUSE MODEL OF OBESITY, WHETHER LOW-DOSE HYDRALAZINE PREVENTS OBESITY-RELATED CHRONIC KIDNEY DISEASE (CKD). METHODS: FROM 8 WEEKS OF AGE, MALE C57BL/6 MICE RECEIVED A HIGH-FAT DIET (HFD) OR CHOW, WITH OR WITHOUT LOW-DOSE HYDRALAZINE (25 MG/L) IN DRINKING WATER, FOR 24 WEEKS. BIOMETRIC AND METABOLIC VARIABLES, RENAL FUNCTION AND STRUCTURAL CHANGES, RENAL GLOBAL DNA METHYLATION, DNA METHYLATION PROFILE AND MARKERS OF RENAL FIBROSIS, INJURY, INFLAMMATION AND OXIDATIVE STRESS WERE ASSESSED. RESULTS: THE HFD-FED MICE DEVELOPED OBESITY, WITH GLUCOSE INTOLERANCE, HYPERINSULINAEMIA AND DYSLIPIDAEMIA. OBESITY INCREASED ALBUMINURIA AND GLOMERULOSCLEROSIS, WHICH WERE SIGNIFICANTLY AMELIORATED BY LOW-DOSE HYDRALAZINE IN THE ABSENCE OF A BLOOD PRESSURE-LOWERING EFFECT. OBESITY INCREASED RENAL GLOBAL DNA METHYLATION AND THIS WAS ATTENUATED BY LOW-DOSE HYDRALAZINE. HFD-INDUCED CHANGES IN METHYLATION OF INDIVIDUAL LOCI WERE ALSO SIGNIFICANTLY REVERSED BY LOW-DOSE HYDRALAZINE. OBESE MICE DEMONSTRATED INCREASED MARKERS OF KIDNEY FIBROSIS, INFLAMMATION AND OXIDATIVE STRESS, BUT THESE MARKERS WERE NOT SIGNIFICANTLY IMPROVED BY HYDRALAZINE. CONCLUSION: LOW-DOSE HYDRALAZINE AMELIORATED HFD-INDUCED ALBUMINURIA AND GLOMERULOSCLEROSIS, INDEPENDENT OF ALTERATIONS IN BIOMETRIC AND METABOLIC VARIABLES OR BLOOD PRESSURE REGULATION. ALTHOUGH THE PRECISE MECHANISM OF RENOPROTECTION IN OBESITY IS UNCLEAR, AN EPIGENETIC BASIS MAY BE IMPLICATED. THESE DATA SUPPORT REPURPOSING HYDRALAZINE AS A NOVEL THERAPY TO PREVENT CKD PROGRESSION IN OBESE PATIENTS. 2022 12 6648 26 UPDATE ON DIAGNOSIS, PATHOPHYSIOLOGY, AND MANAGEMENT OF DIABETIC KIDNEY DISEASE. DIABETIC KIDNEY DISEASE (DKD) IS A CHRONIC COMPLICATION OF DIABETES MELLITUS WHICH MAY EVENTUALLY LEAD TO END-STAGE KIDNEY DISEASE (ESKD). DESPITE IMPROVEMENTS IN GLYCAEMIC CONTROL AND BLOOD PRESSURE MANAGEMENT WITH RENIN-ANGIOTENSIN-ALDOSTERONE SYSTEM (RAAS) BLOCKADE, THE CURRENT THERAPY CANNOT COMPLETELY HALT DKD PROGRESSION TO ESKD IN SOME PATIENTS. DKD IS A HETEROGENEOUS DISEASE ENTITY IN TERMS OF ITS CLINICAL MANIFESTATIONS, HISTOPATHOLOGY AND THE RATE OF PROGRESSION, WHICH MAKES IT DIFFICULT TO DEVELOP EFFECTIVE THERAPEUTICS. IT WAS FORMERLY CONSIDERED THAT ALBUMINURIA PRECEDED KIDNEY FUNCTION DECLINE IN DKD, BUT RECENT EPIDEMIOLOGICAL STUDIES REVEALED THAT A DISTINCT GROUP OF PATIENTS PRESENTED KIDNEY DYSFUNCTION WITHOUT DEVELOPING ALBUMINURIA. OTHER COMORBIDITIES, SUCH AS HYPERTENSION, OBESITY AND GOUT, ALSO AFFECT THE CLINICAL COURSE OF DKD. THE PATHOPHYSIOLOGY OF DKD IS COMPLEX AND MULTIFACTORIAL, INVOLVING BOTH METABOLIC AND HAEMODYNAMIC FACTORS. THESE INDUCE ACTIVATION OF INTRACELLULAR SIGNALLING PATHWAYS, OXIDATIVE STRESS, HYPOXIA, DYSREGULATED AUTOPHAGY AND EPIGENETIC CHANGES, WHICH RESULT IN KIDNEY INFLAMMATION AND FIBROSIS. RECENTLY, TWO GROUPS OF ANTIDIABETIC DRUGS, SODIUM-GLUCOSE COTRANSPORTER 2 (SGLT2) INHIBITORS AND GLUCAGON-LIKE PEPTIDE-1 (GLP-1) RECEPTOR AGONISTS, WERE DEMONSTRATED TO PROVIDE RENOPROTECTION ON TOP OF THEIR GLUCOSE-LOWERING EFFECTS. SEVERAL OTHER THERAPEUTIC AGENTS ARE ALSO BEING DEVELOPED AND EVALUATED IN CLINICAL TRIALS. 2021 13 3884 55 KIDNEY DISEASE IN DIABETES. PERSONS WITH DIABETES MAKE UP THE FASTEST GROWING GROUP OF KIDNEY DIALYSIS AND TRANSPLANT RECIPIENTS IN THE UNITED STATES. IN 1985, WHEN THE FIRST EDITION OF DIABETES IN AMERICA WAS PUBLISHED, 20,961 PERSONS WITH DIABETES WERE RECEIVING RENAL REPLACEMENT THERAPY, REPRESENTING 29% OF ALL NEW CASES OF END-STAGE RENAL DISEASE (ESRD). BY 2012, 239,837 PERSONS WITH DIABETES WERE ON RENAL REPLACEMENT THERAPY, ACCOUNTING FOR 44% OF ALL NEW ESRD CASES. THE INCREASED COUNT REFLECTS GROWTH IN DIABETES PREVALENCE AND INCREASED ACCESS TO DIALYSIS AND TRANSPLANTATION. THOSE WITH A PRIMARY DIAGNOSIS OF DIABETES HAVE LOWER SURVIVAL RELATIVE TO OTHER CAUSES OF ESRD, PRIMARILY BECAUSE OF THE COEXISTENT MORBIDITY ASSOCIATED WITH DIABETES, PARTICULARLY CARDIOVASCULAR DISEASES (CVD). WHILE SURVIVAL ON DIALYSIS HAS SLOWLY IMPROVED ACROSS MODALITIES SINCE THE 1990S, IT REMAINS REDUCED IN PERSONS WITH DIABETES, HALF OF WHOM DIE WITHIN 3 YEARS OF BEGINNING DIALYSIS IN THE UNITED STATES. SIMILAR TO PERSONS WITH ESRD IN GENERAL, THE LEADING CAUSES OF DEATH AMONG ADULTS WITH DIABETES WHO STARTED DIALYSIS IN 1995-2009 WERE CVD (58% OF THE DEATHS) AND INFECTIONS (13% OF THE DEATHS). KIDNEY TRANSPLANT RECIPIENTS WITH DIABETES HAVE MUCH BETTER SURVIVAL THAN THOSE ON DIALYSIS, INDICATING A SIGNIFICANT IMPACT OF THE TYPE OF RENAL REPLACEMENT THERAPY (TRANSPLANT VERSUS DIALYSIS) ON LONG-TERM SURVIVAL. KIDNEY FAILURE AFFECTS ABOUT 1% OF PERSONS WITH DIABETES IN THE UNITED STATES. A CONSIDERABLY HIGHER PROPORTION, ABOUT 40%, HAVE LESS SEVERE KIDNEY DISEASE. SINCE THE SECOND EDITION OF DIABETES IN AMERICA WAS PUBLISHED IN 1995, A WEALTH OF NEW INFORMATION HAS CONTRIBUTED SUBSTANTIALLY TO THE UNDERSTANDING OF KIDNEY DISEASE ASSOCIATED WITH DIABETES. IN 2002, THE NATIONAL KIDNEY FOUNDATION'S KIDNEY DISEASE OUTCOME QUALITY INITIATIVE PUBLISHED A UNIFORM DEFINITION OF CHRONIC KIDNEY DISEASE (CKD) AND CLASSIFICATION OF ITS STAGES IRRESPECTIVE OF UNDERLYING CAUSE, THUS PROVIDING A COMMON LANGUAGE FOR DEFINING BOTH THE SEVERITY AND PROGNOSIS OF KIDNEY DISEASE. THE DEFINITION AND CLASSIFICATION OF CKD WERE SUBSEQUENTLY UPDATED AND REFINED BY THE KIDNEY DISEASE: IMPROVING GLOBAL OUTCOMES IN 2012. ACCORDINGLY, CKD IS CLASSIFIED BASED ON BOTH ALBUMINURIA AND GLOMERULAR FILTRATION RATE (GFR) CATEGORIES, AND TOGETHER WITH KIDNEY FAILURE, THESE CONDITIONS ARE COLLECTIVELY REFERRED TO AS CKD, REGARDLESS OF ETIOLOGY. IN ADDITION, THE KIDNEY DISEASE: IMPROVING GLOBAL OUTCOMES RECOMMENDS USING EQUATIONS TO ESTIMATE GFR (EGFR), WHICH INCLUDE THE ROUTINELY OBTAINED VARIABLES SERUM CREATININE, AGE, SEX, AND RACE/ETHNICITY. THE USE OF SERUM CYSTATIN C, AN ENDOGENOUS FILTRATION MARKER LESS INFLUENCED THAN SERUM CREATININE BY VARIATIONS IN MUSCLE MASS, DIET, AND TUBULAR SECRETION, HAS EMERGED AS AN ALTERNATIVE OR AN ADJUNCT TO SERUM CREATININE-BASED EQUATIONS, PARTICULARLY IN PERSONS WITH DIABETES, IN WHOM EARLY KIDNEY DISEASE IS OFTEN CHARACTERIZED BY ELEVATED GFR. SINCE THE LATE 1990S, NEW MOLECULAR MECHANISMS HAVE BEEN DEFINED THAT ARE HELPING TO EXPLAIN THE DEVELOPMENT AND PROGRESSION OF DIABETIC KIDNEY DISEASE. GLOMERULAR STRUCTURAL LESIONS WERE FOUND TO EXPLAIN 95% OF THE VARIABILITY IN ALBUMIN EXCRETION AND 78% OF GFR VARIABILITY. THE LATTER PERCENTAGE INCREASED TO 92% BY ADDING INDICES OF GLOMERULAR-TUBULAR JUNCTION ABNORMALITIES AND INTERSTITIAL EXPANSION TO THE REGRESSION MODELS. PODOCYTE INJURY APPEARS TO PLAY AN ESSENTIAL ROLE IN THE PROGRESSION OF DIABETIC NEPHROPATHY. IN PERSONS WITH EITHER TYPE 1 OR TYPE 2 DIABETES, PODOCYTE CHANGES MAY OCCUR EVEN BEFORE THE INCREASE IN ALBUMINURIA, SUGGESTING THAT DIABETES ITSELF MAY INDUCE PODOCYTE ALTERATIONS. MUCH HAS ALSO BEEN WRITTEN ABOUT THE PROGNOSTIC IMPLICATIONS OF CKD. ELEVATED ALBUMINURIA AND LOW GFR ARE ASSOCIATED WITH ESRD, FATAL AND NONFATAL CVD, AND ALL-CAUSE MORTALITY. A META-ANALYSIS OF 1,024,977 PARTICIPANTS (NEARLY 13% WITH DIABETES) FROM 30 GENERAL POPULATION AND HIGH-RISK CARDIOVASCULAR COHORTS AND 13 CKD COHORTS INDICATED THAT WHILE THE ABSOLUTE RISKS FOR ALL-CAUSE AND CVD MORTALITY ARE HIGHER IN THE PRESENCE OF DIABETES, THE RELATIVE RISKS OF ESRD OR DEATH BY EGFR AND ALBUMINURIA ARE SIMILAR WITH OR WITHOUT DIABETES. THESE FINDINGS UNDERSCORE THE IMPORTANCE OF KIDNEY DISEASE PER SE AS A PREDICTOR OF IMPORTANT CLINICAL OUTCOMES, REGARDLESS OF THE UNDERLYING CAUSE OF KIDNEY DISEASE. NEW BIOMARKERS OF DIABETIC KIDNEY DISEASE APPEAR TO HAVE ADDITIONAL PROGNOSTIC INFORMATION BEYOND THAT PROVIDED BY ALBUMINURIA. THESE MARKERS INCLUDE KIDNEY INJURY MOLECULE 1, LIVER FATTY ACID-BINDING PROTEIN, N-ACETYL-BETA-D-GLUCOSAMINIDASE, NEUTROPHIL GELATINASE-ASSOCIATED LIPOCALIN, BETA-TRACE PROTEIN, BETA(2)-MICROGLOBULIN, AND TUMOR NECROSIS FACTOR RECEPTORS 1 AND 2. MANY CONCEPTS ABOUT RISK FACTORS FOR CKD ILLUSTRATED IN THIS CHAPTER HAVE NOT CHANGED SINCE 1995, AND WHERE THEY HAVE, THOSE CHANGES ARE DISCUSSED. IN PARTICULAR, MAJOR ADVANCES HAVE BEEN MADE IN ELUCIDATING THE GENETIC AND EPIGENETIC COMPLEXITY OF CKD, WHICH CONTRIBUTED TO DEFINING CELLULAR METABOLIC MEMORY AND THE UNDERSTANDING OF THE LONGLASTING EFFECTS OF STRICT GLYCEMIC CONTROL OBSERVED IN PERSONS WITH TYPE 1 DIABETES OR TYPE 2 DIABETES. IMPROVEMENTS IN THE MANAGEMENT OF PERSONS WITH DIABETES AND CKD HAVE EXTENDED THE TIME COURSE FROM ONSET OF SEVERE ALBUMINURIA TO ESRD AND REDUCED THE OCCURRENCE OF CVD. IN TYPE 1 DIABETES, THE COMBINED DIABETES CONTROL AND COMPLICATIONS TRIAL (DCCT) AND ITS LONG-TERM FOLLOW-UP, THE EPIDEMIOLOGY OF DIABETES INTERVENTIONS AND COMPLICATIONS (EDIC) OBSERVATIONAL STUDY, INDICATED THAT INTENSIVE EARLY METABOLIC CONTROL REDUCED THE RISK OF IMPAIRED GFR BY 50% AND OF CVD OUTCOMES BY 42%, WITH A SPECIFIC 57% DECREASE IN MYOCARDIAL INFARCTION, STROKE, OR DEATH FROM CVD, EFFECTS THAT WERE PARTLY MEDIATED BY THE REDUCED INCIDENCE OF DIABETIC KIDNEY DISEASE. AMONG PERSONS WITH TYPE 2 DIABETES, A META-ANALYSIS OF RANDOMIZED CONTROLLED TRIALS INDICATED THAT MORE INTENSIVE GLYCEMIC CONTROL (GLYCOSYLATED HEMOGLOBIN [A1C] <7%) WAS ASSOCIATED WITH A SIGNIFICANT 10% REDUCTION IN ALBUMINURIA BUT HAD NO EFFECTS ON MORTALITY, KIDNEY FAILURE, OR OTHER VASCULAR OUTCOMES. THE ACTION TO CONTROL CARDIOVASCULAR RISK IN DIABETES (ACCORD) TRIAL, TARGETING AN A1C LEVEL <6.0% IN THE INTENSIVE INTERVENTION ARM, REPORTED AN INCREASED RISK OF CVD DEATH FOR INTENSIVE VERSUS CONVENTIONAL GLYCEMIC CONTROL, ALTHOUGH IT REMAINS UNCLEAR WHETHER THIS EFFECT WAS RELATED TO MORE HYPOGLYCEMIC EPISODES, THE USE OF ADDITIONAL HYPOGLYCEMIC MEDICINES, OR TO THE TARGET GLYCEMIC LEVEL ITSELF. LIKEWISE, THE MODEST GAINS IN INTERMEDIATE OUTCOMES IN THE INTENSIVE TREATMENT ARMS OF THE ACTION IN DIABETES AND VASCULAR DISEASE: PRETERAX AND DIAMICRON MODIFIED RELEASE CONTROLLED EVALUATION (ADVANCE) AND THE VETERANS AFFAIRS DIABETES (VADT) TRIAL WERE COUNTERBALANCED BY A TWOFOLD TO THREEFOLD HIGHER RISK OF SEVERE HYPOGLYCEMIA. TOGETHER, THESE TRIALS INDICATE THAT GLYCEMIC CONTROL IS EXTREMELY USEFUL UP TO A POINT, BUT MORE AGGRESSIVE GLYCEMIC CONTROL MAY BE HARMFUL. SIMILARLY, FOR BLOOD PRESSURE CONTROL, 2014-2015 RECOMMENDATIONS BY THE GUIDELINE-WRITING GROUPS ENDORSE LESS INTENSIVE AND MORE INDIVIDUALIZED BLOOD PRESSURE TARGETS FOR DIABETES AND CKD THAN IN THE PAST. PERSONS WITH DIABETES AND CKD REQUIRE MULTIDISCIPLINARY MANAGEMENT INVOLVING A COMBINATION OF TREATMENTS AND BEHAVIORAL ADJUSTMENTS TO DELAY PROGRESSION OF CKD AND TO PREVENT THE ASSOCIATED COMPLICATIONS. THE STENO-2 STUDY, A LANDMARK PROSPECTIVE, RANDOMIZED TRIAL IN DENMARK, DEMONSTRATED THAT COMPARED WITH CONVENTIONAL TREATMENT, INTENSIVE MULTIFACTORIAL INTERVENTION LED TO 46% LOWER DEATH RATE, 56% LESS SEVERE ALBUMINURIA, 43% LOWER INCIDENCE OF DIABETIC RETINOPATHY, AND 47% LOWER INCIDENCE OF AUTONOMIC NEUROPATHY DURING THE 13.3-YEAR STUDY PERIOD. 2018 14 465 28 ARE TARGETED THERAPIES FOR DIABETIC CARDIOMYOPATHY ON THE HORIZON? DIABETES INCREASES THE RISK OF HEART FAILURE APPROXIMATELY 2.5-FOLD, INDEPENDENT OF CORONARY ARTERY DISEASE AND OTHER COMORBIDITIES. THIS PROCESS, TERMED DIABETIC CARDIOMYOPATHY, IS CHARACTERIZED BY INITIAL IMPAIRMENT OF LEFT VENTRICULAR (LV) RELAXATION FOLLOWED BY LV CONTRACTILE DYSFUNCTION. POST-MORTEM EXAMINATION REVEALS THAT HUMAN DIASTOLIC DYSFUNCTION IS CLOSELY ASSOCIATED WITH LV DAMAGE, INCLUDING CARDIOMYOCYTE HYPERTROPHY, APOPTOSIS AND FIBROSIS, WITH IMPAIRED CORONARY MICROVASCULAR PERFUSION. THE PATHOPHYSIOLOGICAL MECHANISMS UNDERPINNING THE CHARACTERISTIC FEATURES OF DIABETIC CARDIOMYOPATHY REMAIN POORLY UNDERSTOOD, ALTHOUGH MULTIPLE FACTORS INCLUDING ALTERED LIPID METABOLISM, MITOCHONDRIAL DYSFUNCTION, OXIDATIVE STRESS, ENDOPLASMIC RETICULUM (ER) STRESS, INFLAMMATION, AS WELL AS EPIGENETIC CHANGES, ARE IMPLICATED. DESPITE A RECENT RISE IN RESEARCH INTERROGATING THESE MECHANISMS AND AN INCREASED UNDERSTANDING OF THE CLINICAL IMPORTANCE OF DIABETIC CARDIOMYOPATHY, THERE REMAINS A LACK OF SPECIFIC TREATMENT STRATEGIES. HOW THE CHRONIC METABOLIC DISTURBANCES OBSERVED IN DIABETES LEAD TO STRUCTURAL AND FUNCTIONAL CHANGES REMAINS A PERTINENT QUESTION, AND IT IS HOPED THAT RECENT ADVANCES, PARTICULARLY IN THE AREA OF EPIGENETICS, AMONG OTHERS, MAY PROVIDE SOME ANSWERS. THIS REVIEW HENCE EXPLORES THE TEMPORAL ONSET OF THE PATHOLOGICAL FEATURES OF DIABETIC CARDIOMYOPATHY, AND THEIR RELATIVE CONTRIBUTION TO THE RESULTANT DISEASE PHENOTYPE, AS WELL AS BOTH CURRENT AND POTENTIAL THERAPEUTIC OPTIONS. THE EMERGENCE OF GLUCOSE-OPTIMIZING AGENTS, NAMELY GLUCAGON-LIKE PEPTIDE-1 (GLP-1) AGONISTS AND SODIUM/GLUCOSE CO-TRANSPORTER (SGLT)2 INHIBITORS THAT CONFER BENEFITS ON CARDIOVASCULAR OUTCOMES, TOGETHER WITH NOVEL EXPERIMENTAL APPROACHES, HIGHLIGHT A NEW AND EXCITING ERA IN DIABETES RESEARCH, WHICH IS LIKELY TO RESULT IN MAJOR CLINICAL IMPACT. 2017 15 933 35 CHRONIC KIDNEY DISEASE. THE DEFINITION AND CLASSIFICATION OF CHRONIC KIDNEY DISEASE (CKD) HAVE EVOLVED OVER TIME, BUT CURRENT INTERNATIONAL GUIDELINES DEFINE THIS CONDITION AS DECREASED KIDNEY FUNCTION SHOWN BY GLOMERULAR FILTRATION RATE (GFR) OF LESS THAN 60 ML/MIN PER 1.73 M(2), OR MARKERS OF KIDNEY DAMAGE, OR BOTH, OF AT LEAST 3 MONTHS DURATION, REGARDLESS OF THE UNDERLYING CAUSE. DIABETES AND HYPERTENSION ARE THE MAIN CAUSES OF CKD IN ALL HIGH-INCOME AND MIDDLE-INCOME COUNTRIES, AND ALSO IN MANY LOW-INCOME COUNTRIES. INCIDENCE, PREVALENCE, AND PROGRESSION OF CKD ALSO VARY WITHIN COUNTRIES BY ETHNICITY AND SOCIAL DETERMINANTS OF HEALTH, POSSIBLY THROUGH EPIGENETIC INFLUENCE. MANY PEOPLE ARE ASYMPTOMATIC OR HAVE NON-SPECIFIC SYMPTOMS SUCH AS LETHARGY, ITCH, OR LOSS OF APPETITE. DIAGNOSIS IS COMMONLY MADE AFTER CHANCE FINDINGS FROM SCREENING TESTS (URINARY DIPSTICK OR BLOOD TESTS), OR WHEN SYMPTOMS BECOME SEVERE. THE BEST AVAILABLE INDICATOR OF OVERALL KIDNEY FUNCTION IS GFR, WHICH IS MEASURED EITHER VIA EXOGENOUS MARKERS (EG, DTPA, IOHEXOL), OR ESTIMATED USING EQUATIONS. PRESENCE OF PROTEINURIA IS ASSOCIATED WITH INCREASED RISK OF PROGRESSION OF CKD AND DEATH. KIDNEY BIOPSY SAMPLES CAN SHOW DEFINITIVE EVIDENCE OF CKD, THROUGH COMMON CHANGES SUCH AS GLOMERULAR SCLEROSIS, TUBULAR ATROPHY, AND INTERSTITIAL FIBROSIS. COMPLICATIONS INCLUDE ANAEMIA DUE TO REDUCED PRODUCTION OF ERYTHROPOIETIN BY THE KIDNEY; REDUCED RED BLOOD CELL SURVIVAL AND IRON DEFICIENCY; AND MINERAL BONE DISEASE CAUSED BY DISTURBED VITAMIN D, CALCIUM, AND PHOSPHATE METABOLISM. PEOPLE WITH CKD ARE FIVE TO TEN TIMES MORE LIKELY TO DIE PREMATURELY THAN THEY ARE TO PROGRESS TO END STAGE KIDNEY DISEASE. THIS INCREASED RISK OF DEATH RISES EXPONENTIALLY AS KIDNEY FUNCTION WORSENS AND IS LARGELY ATTRIBUTABLE TO DEATH FROM CARDIOVASCULAR DISEASE, ALTHOUGH CANCER INCIDENCE AND MORTALITY ARE ALSO INCREASED. HEALTH-RELATED QUALITY OF LIFE IS SUBSTANTIALLY LOWER FOR PEOPLE WITH CKD THAN FOR THE GENERAL POPULATION, AND FALLS AS GFR DECLINES. INTERVENTIONS TARGETING SPECIFIC SYMPTOMS, OR AIMED AT SUPPORTING EDUCATIONAL OR LIFESTYLE CONSIDERATIONS, MAKE A POSITIVE DIFFERENCE TO PEOPLE LIVING WITH CKD. INEQUITY IN ACCESS TO SERVICES FOR THIS DISEASE DISPROPORTIONALLY AFFECTS DISADVANTAGED POPULATIONS, AND HEALTH SERVICE PROVISION TO INCENTIVISE EARLY INTERVENTION OVER PROVISION OF CARE ONLY FOR ADVANCED CKD IS STILL EVOLVING IN MANY COUNTRIES. 2017 16 1384 32 DIABETES AND KIDNEY DISEASE: EMPHASIS ON TREATMENT WITH SGLT-2 INHIBITORS AND GLP-1 RECEPTOR AGONISTS. KIDNEY DISEASE IS A FREQUENT MICROVASCULAR COMPLICATION OF BOTH TYPE 1 AND TYPE 2 DIABETES. HISTORIC TRIALS HAVE DEMONSTRATED THAT A TIGHT GLYCAEMIC CONTROL IS THE MOST POWERFUL APPROACH TO DECREASE THE CHANCES OF DEVELOPING DIABETIC NEPHROPATHY. HOWEVER, HAVING AN HBA1C < 7% DOES NOT COMPLETELY SUPPRESS THE RISK OF KIDNEY DISEASE. THE OBSERVED RESIDUAL RISK IS LIKELY ASCRIBABLE TO TWO PHENOMENA: 1- THE PRESENCE OF RISK FACTORS AND ALTERATIONS ADDITIVE TO AND INDEPENDENT OF GLYCAEMIA, AND 2- THE ACTIVATION OF LONG-LASTING IMBALANCES BY PERIODS OF EXPOSURE TO UNCONTROLLED GLYCEMIA, A PHENOMENON REFERRED TO AS METABOLIC MEMORY OR LEGACY EFFECT. LONG-LASTING OXIDATIVE STRESS, EPIGENETIC ALTERATIONS, CELLULAR SENESCENCE, AND THE RESULTING CHRONIC LOW-GRADE INFLAMMATION ARE ALL CANDIDATE MECHANISMS EXPLAINING THE DEVELOPMENT OF NEPHROPATHY DESPITE PROPER CONTROL OF RISK FACTORS. RECENTLY, TWO CLASSES OF DRUGS, I.E. GLUCAGON-LIKE PEPTIDE (GLP) 1 RECEPTOR AGONISTS (RA) AND SODIUM-GLUCOSE TRANSPORTER 2 INHIBITORS (SGLT-I) HAVE CHANGED THIS SCENARIO. INDEED, CARDIOVASCULAR OUTCOME AND OTHER TRIALS HAVE CLEARLY SHOWN A RENOPROTECTIVE EFFECT FOR THESE DRUGS, WELL-BEYOND THEIR GLUCOSE-LOWERING PROPERTIES. IN THIS REVIEW, WE SUMMARIZE: 1- SELECTED KEY TRIALS AND MECHANISMS UNDERLYING THE DEVELOPMENT OF DIABETIC KIDNEY DISEASE AND 2- THE RESULTS RELATIVE TO RENAL ENDPOINTS IN CLINICAL TRIALS OF GLP-1 RA AND SGLT-2I. THEN, WE BRIEFLY DISCUSS SOME OF THE HYPOTHESES POSITED TO EXPLAIN THE MARKED RENOPROTECTIVE PROPERTIES OF THESE TWO CLASSES, EVIDENCING THE STILL EXISTING GAPS IN KNOWLEDGE AND PROPOSING FUTURE DIRECTIONS TO FURTHER IMPLEMENT THE USE OF THESE POWERFUL, DISEASE-MODIFYING DRUGS. 2021 17 4433 24 MOLECULAR COMPLEXITIES UNDERLYING THE VASCULAR COMPLICATIONS OF DIABETES MELLITUS - A COMPREHENSIVE REVIEW. DIABETES IS A CHRONIC DISEASE, CHARACTERIZED BY HYPERGLYCEMIA, WHICH REFERS TO THE ELEVATED LEVELS OF GLUCOSE IN THE BLOOD, DUE TO THE INABILITY OF THE BODY TO PRODUCE OR USE INSULIN EFFECTIVELY. CHRONIC HYPERGLYCEMIA LEVELS LEAD TO MACROVASCULAR AND MICROVASCULAR COMPLICATIONS. THE MACROVASCULAR COMPLICATIONS CONSIST OF PERIPHERAL ARTERY DISEASE (PAD), CARDIOVASCULAR DISEASES (CVD) AND CEREBROVASCULAR DISEASES, WHILE THE MICROVASCULAR COMPLICATIONS COMPRISE OF DIABETIC MICROANGIOPATHY, DIABETIC NEPHROPATHY, DIABETIC RETINOPATHY AND DIABETIC NEUROPATHY. VASCULAR ENDOTHELIAL DYSFUNCTION PLAYS A CRUCIAL ROLE IN MEDIATING BOTH MACROVASCULAR AND MICROVASCULAR COMPLICATIONS UNDER HYPERGLYCEMIC CONDITIONS. IN DIABETIC MICROVASCULATURE, THE INTRACELLULAR HYPERGLYCEMIA CAUSES DAMAGE TO THE VASCULAR ENDOTHELIUM THROUGH - (I) ACTIVATION OF FOUR BIOCHEMICAL PATHWAYS, NAMELY THE POLYOL PATHWAY, PROTEIN KINASE C (PKC) PATHWAY, ADVANCED GLYCATION END PRODUCTS (AGE) PATHWAY AND HEXOSAMINE PATHWAY, ALL OF WHICH COMMUTES GLUCOSE AND ITS INTERMEDIATES LEADING TO OVERPRODUCTION OF REACTIVE OXYGEN SPECIES, (II) DYSREGULATION OF GROWTH FACTORS AND CYTOKINES, (III) EPIGENETIC CHANGES WHICH CONCERN THE CHANGES IN DNA AS A RESPONSE TO INTRACELLULAR CHANGES, AND (IV) ABNORMALITIES IN NON-CODING RNAS, SPECIFICALLY MICRORNAS. THIS REVIEW WILL FOCUS ON GAINING AN UNDERSTANDING OF THE MOLECULAR COMPLEXITIES UNDERLYING THE VASCULAR COMPLICATIONS IN DIABETES MELLITUS, TO INCREASE OUR UNDERSTANDING TOWARDS THE DEVELOPMENT OF NEW MECHANISTIC THERAPEUTIC STRATEGIES TO PREVENT OR TREAT DIABETES-INDUCED VASCULAR COMPLICATIONS. 2020 18 6575 29 TREATMENT OF DIABETIC KIDNEY DISEASE: CURRENT AND FUTURE. DIABETIC KIDNEY DISEASE (DKD) IS THE MAJOR CAUSE OF END-STAGE KIDNEY DISEASE. HOWEVER, ONLY RENIN-ANGIOTENSIN SYSTEM INHIBITOR WITH MULTIDISCIPLINARY TREATMENTS IS EFFECTIVE FOR DKD. IN 2019, SODIUM-GLUCOSE COTRANSPORTER 2 (SGLT2) INHIBITOR SHOWED EFFICACY AGAINST DKD IN CANAGLIFLOZIN AND RENAL EVENTS IN DIABETES WITH ESTABLISHED NEPHROPATHY CLINICAL EVALUATION (CREDENCE) TRIAL, ADDING A NEW TREATMENT OPTION. HOWEVER, THE PROGRESSION OF DKD HAS NOT BEEN COMPLETELY CONTROLLED. THE PATIENTS WITH TRANSIENT EXPOSURE TO HYPERGLYCEMIA DEVELOP DIABETIC COMPLICATIONS, INCLUDING DKD, EVEN AFTER NORMALIZATION OF THEIR BLOOD GLUCOSE. TEMPORARY HYPERGLYCEMIA CAUSES ADVANCED GLYCATION END PRODUCT (AGE) ACCUMULATIONS AND EPIGENETIC CHANGES AS METABOLIC MEMORY. THE DRUGS THAT IMPROVE METABOLIC MEMORY ARE AWAITED, AND AGE INHIBITORS AND HISTONE MODIFICATION INHIBITORS ARE THE FOCUS OF CLINICAL AND BASIC RESEARCH. IN ADDITION, INCRETIN-RELATED DRUGS SHOWED A RENOPROTECTIVE ABILITY IN MANY CLINICAL TRIALS, AND THESE TRIALS WITH RENAL OUTCOME AS THEIR PRIMARY ENDPOINT ARE CURRENTLY ONGOING. HYPOXIA-INDUCIBLE FACTOR PROLYL HYDROXYLASE INHIBITORS RECENTLY APPROVED FOR RENAL ANEMIA MAY BE RENOPROTECTIVE SINCE THEY IMPROVE TUBULOINTERSTITIAL HYPOXIA. FURTHERMORE, NF-E2-RELATED FACTOR 2 ACTIVATORS IMPROVED THE GLOMERULAR FILTRATION RATE OF DKD PATIENTS IN BARDOXOLONE METHYL TREATMENT: RENAL FUNCTION IN CHRONIC KIDNEY DISEASE/TYPE 2 DIABETES (BEAM) TRIAL AND PHASE II STUDY OF BARDOXOLONE METHYL IN PATIENTS WITH CHRONIC KIDNEY DISEASE AND TYPE 2 DIABETES (TSUBAKI) TRIAL. THUS, FOLLOWING SGLT2 INHIBITOR, NUMEROUS NOVEL DRUGS COULD BE UTILIZED IN TREATING DKD. FUTURE STUDIES ARE EXPECTED TO PROVIDE NEW INSIGHTS. 2021 19 4137 18 MECHANISMS OF METABOLIC MEMORY AND RENAL HYPOXIA AS A THERAPEUTIC TARGET IN DIABETIC KIDNEY DISEASE. DIABETIC KIDNEY DISEASE (DKD) IS A WORLDWIDE PUBLIC HEALTH PROBLEM. THE DEFINITION OF DKD IS UNDER DISCUSSION. ALTHOUGH THE TERM DKD WAS ORIGINALLY DEFINED AS 'KIDNEY DISEASE SPECIFIC TO DIABETES,' DKD FREQUENTLY MEANS CHRONIC KIDNEY DISEASE WITH DIABETES MELLITUS AND INCLUDES NOT ONLY CLASSICAL DIABETIC NEPHROPATHY, BUT ALSO KIDNEY DYSFUNCTION AS A RESULT OF NEPHROSCLEROSIS AND OTHER CAUSES. METABOLIC MEMORY PLAYS A CRUCIAL ROLE IN THE PROGRESSION OF VARIOUS COMPLICATIONS OF DIABETES, INCLUDING DKD. THE MECHANISMS OF METABOLIC MEMORY IN DKD ARE SUPPOSED TO INCLUDE ADVANCED GLYCATION END-PRODUCTS, DEOXYRIBONUCLEIC ACID METHYLATION, HISTONE MODIFICATIONS AND NON-CODING RIBONUCLEIC ACID INCLUDING MICRO RIBONUCLEIC ACID. REGARDLESS OF THE PRESENCE OF DIABETES MELLITUS, THE FINAL COMMON PATHWAY IN CHRONIC KIDNEY DISEASE IS CHRONIC KIDNEY HYPOXIA, WHICH INFLUENCES EPIGENETIC PROCESSES, INCLUDING DEOXYRIBONUCLEIC ACID METHYLATION, HISTONE MODIFICATION, AND CONFORMATIONAL CHANGES IN MICRO RIBONUCLEIC ACID AND CHROMATIN. THEREFORE, HYPOXIA AND OXIDATIVE STRESS ARE APPROPRIATE TARGETS OF THERAPIES AGAINST DKD. PROLYL HYDROXYLASE DOMAIN INHIBITOR ENHANCES THE DEFENSIVE MECHANISMS AGAINST HYPOXIA. BARDOXOLONE METHYL PROTECTS AGAINST OXIDATIVE STRESS, AND CAN EVEN REVERSE IMPAIRED RENAL FUNCTION; A PHASE 2 TRIAL WITH CONSIDERABLE ATTENTION TO HEART COMPLICATIONS IS CURRENTLY ONGOING IN JAPAN. 2017 20 4459 26 MOLECULAR MECHANISMS OF DIABETIC VASCULAR COMPLICATIONS. DIABETIC COMPLICATIONS ARE THE MAJOR CAUSES OF MORBIDITY AND MORTALITY IN PATIENTS WITH DIABETES. MICROVASCULAR COMPLICATIONS INCLUDE RETINOPATHY, NEPHROPATHY AND NEUROPATHY, WHICH ARE LEADING CAUSES OF BLINDNESS, END-STAGE RENAL DISEASE AND VARIOUS PAINFUL NEUROPATHIES; WHEREAS MACROVASCULAR COMPLICATIONS INVOLVE ATHEROSCLEROSIS RELATED DISEASES, SUCH AS CORONARY ARTERY DISEASE, PERIPHERAL VASCULAR DISEASE AND STROKE. DIABETIC COMPLICATIONS ARE THE RESULT OF INTERACTIONS AMONG SYSTEMIC METABOLIC CHANGES, SUCH AS HYPERGLYCEMIA, LOCAL TISSUE RESPONSES TO TOXIC METABOLITES FROM GLUCOSE METABOLISM, AND GENETIC AND EPIGENETIC MODULATORS. CHRONIC HYPERGLYCEMIA IS RECOGNIZED AS A MAJOR INITIATOR OF DIABETIC COMPLICATIONS. MULTIPLE MOLECULAR MECHANISMS HAVE BEEN PROPOSED TO MEDIATE HYPERGLYCEMIA'S ADVERSE EFFECTS ON VASCULAR TISSUES. THESE INCLUDE INCREASED POLYOL PATHWAY, ACTIVATION OF THE DIACYLGLYCEROL/PROTEIN KINASE C PATHWAY, INCREASED OXIDATIVE STRESS, OVERPRODUCTION AND ACTION OF ADVANCED GLYCATION END PRODUCTS, AND INCREASED HEXOSAMINE PATHWAY. IN ADDITION, THE ALTERATIONS OF SIGNAL TRANSDUCTION PATHWAYS INDUCED BY HYPERGLYCEMIA OR TOXIC METABOLITES CAN ALSO LEAD TO CELLULAR DYSFUNCTIONS AND DAMAGE VASCULAR TISSUES BY ALTERING GENE EXPRESSION AND PROTEIN FUNCTION. LESS STUDIED THAN THE TOXIC MECHANISMS, HYPERGLYCEMIA MIGHT ALSO INHIBIT THE ENDOGENOUS VASCULAR PROTECTIVE FACTORS SUCH AS INSULIN, VASCULAR ENDOTHELIAL GROWTH FACTOR, PLATELET-DERIVED GROWTH FACTOR AND ACTIVATED PROTEIN C, WHICH PLAY IMPORTANT ROLES IN MAINTAINING VASCULAR HOMEOSTASIS. THUS, EFFECTIVE THERAPIES FOR DIABETIC COMPLICATIONS NEED TO INHIBIT MECHANISMS INDUCED BY HYPERGLYCEMIA'S TOXIC EFFECTS AND ALSO ENHANCE THE ENDOGENOUS PROTECTIVE FACTORS. THE PRESENT REVIEW SUMMARIZES THESE MULTIPLE BIOCHEMICAL PATHWAYS ACTIVATED BY HYPERGLYCEMIA AND THE POTENTIAL THERAPEUTIC INTERVENTIONS THAT MIGHT PREVENT DIABETIC COMPLICATIONS. (J DIABETES INVEST, DOI: 10.1111/J.2040-1124.2010.00018.X, 2010). 2010