1 5345 165 RAPID CHANGES IN EXPRESSION OF CLASS I AND IV HISTONE DEACETYLASES DURING EPILEPTOGENESIS IN MOUSE MODELS OF TEMPORAL LOBE EPILEPSY. A PROMINENT ROLE OF EPIGENETIC MECHANISMS IN MANIFESTATION OF EPILEPSY HAS BEEN PROPOSED. THUS ALTERED HISTONE H3 AND H4 ACETYLATION HAS BEEN DEMONSTRATED IN EXPERIMENTAL MODELS OF TEMPORAL LOBE EPILEPSY (TLE). WE NOW INVESTIGATED CHANGES IN THE EXPRESSION OF THE CLASS I AND CLASS IV HISTONE DEACETYLASES (HDAC) IN TWO COMPLEMENTARY MOUSE TLE MODELS. UNILATERAL INTRAHIPPOCAMPAL INJECTION OF KAINIC ACID (KA) INDUCED A STATUS EPILEPTICUS LASTING 6 TO 24H, DEVELOPMENT OF SPONTANEOUS LIMBIC SEIZURES (2 TO 3 DAYS AFTER KA INJECTION) AND CHRONIC EPILEPSY, AS REVEALED BY TELEMETRIC RECORDINGS OF THE EEGS. MICE WERE KILLED AT DIFFERENT INTERVALS AFTER KA INJECTION AND EXPRESSION OF HDAC MRNAS WAS INVESTIGATED BY IN SITU HYBRIDIZATION. WE OBSERVED MARKED DECREASES IN THE EXPRESSION OF HDACS 1, 2 AND 11 (BY UP TO 75%) IN THE GRANULE CELL AND PYRAMIDAL CELL LAYERS OF THE HIPPOCAMPUS DURING THE ACUTE STATUS EPILEPTICUS (2 TO 6H AFTER KA INJECTION). THIS WAS FOLLOWED BY INCREASED EXPRESSION OF ALL CLASS I HDAC MRNAS IN ALL PRINCIPAL CELL LAYERS OF THE HIPPOCAMPUS AFTER 12 TO 48 H. IN THE CHRONIC PHASE, 14 AND 28 DAYS AFTER KA, ONLY MODEST INCREASES IN THE EXPRESSION OF HDAC1 MRNA WERE OBSERVED IN GRANULE AND PYRAMIDAL CELLS. IMMUNOHISTOCHEMISTRY USING AN ANTIBODY DETECTING HDAC2 REVEALED RESULTS CONSISTENT WITH THE MRNA DATA AND INDICATES ALSO EXPRESSION IN GLIAL CELLS ON THE INJECTION SIDE. SIMILAR CHANGES AS SEEN IN THE KA MODEL WERE OBSERVED AFTER A PILOCARPINE-INDUCED STATUS EPILEPTICUS EXCEPT THAT DECREASES IN HDACS 2, 3 AND 8 WERE ALSO SEEN AT THE CHRONIC 28 DAY INTERVAL. THE PROMINENT DECREASES IN HDAC EXPRESSION DURING STATUS EPILEPTICUS ARE CONSISTENT WITH THE PREVIOUSLY DEMONSTRATED INCREASED EXPRESSION OF NUMEROUS PROTEINS AND WITH THE AUGMENTED ACETYLATION OF HISTONE H4. IT IS SUGGESTED THAT RESPECTIVE PUTATIVE GENE PRODUCTS COULD FACILITATE PROCONVULSIVE AS WELL AS ANTICONVULSIVE MECHANISMS. THE INCREASED EXPRESSION OF ALL CLASS I HDACS DURING THE "SILENT PHASE", ON THE OTHER HAND, MAY BE RELATED TO DECREASED HISTONE ACETYLATION, WHICH COULD CAUSE A DECREASE IN EXPRESSION OF CERTAIN PROTEINS, A MECHANISM THAT COULD ALSO PROMOTE EPILEPTOGENESIS. THUS, ADDRESSING HDAC EXPRESSION MAY HAVE A THERAPEUTIC POTENTIAL IN INTERFERING WITH A STATUS EPILEPTICUS AND WITH THE MANIFESTATION OF TLE. 2015 2 2755 77 EXPRESSION OF CLASS II HISTONE DEACETYLASES IN TWO MOUSE MODELS OF TEMPORAL LOBE EPILEPSY. EPIGENETIC MECHANISMS LIKE ALTERED HISTONE ACETYLATION MAY HAVE A CRUCIAL ROLE IN EPILEPTOGENESIS. IN TWO MOUSE MODELS OF TEMPORAL LOBE EPILEPSY, WE INVESTIGATED CHANGES IN THE EXPRESSION OF CLASS II HISTONE DEACETYLASES (HDAC), A GROUP OF SIGNAL TRANSDUCERS THAT SHUTTLE BETWEEN NUCLEUS AND CYTOPLASM. INTRAHIPPOCAMPAL INJECTION OF KAINIC ACID (KA) INDUCED A STATUS EPILEPTICUS, DEVELOPMENT OF SPONTANEOUS SEIZURES (AFTER 3 DAYS), AND FINALLY CHRONIC EPILEPSY AND GRANULE CELL DISPERSION. EXPRESSION OF CLASS II HDAC MRNAS WAS INVESTIGATED AT DIFFERENT TIME INTERVALS AFTER KA INJECTION IN THE GRANULE CELL LAYERS AND IN SECTORS CA1 AND CA3 CONTRALATERAL TO THE SITE OF KA INJECTION LACKING NEURODEGENERATION. INCREASED EXPRESSION OF HDAC5 AND 9 MRNAS COINCIDED WITH PRONOUNCED GRANULE CELL DISPERSION IN THE KA-INJECTED HIPPOCAMPUS AT LATE INTERVALS (14-28 DAYS AFTER KA) AND EQUALLY AFFECTED BOTH HDAC9 SPLICE VARIANTS. IN CONTRAST, IN THE PILOCARPINE MODEL (SHOWING NO GRANULE CELL DISPERSION), WE OBSERVED DECREASES IN THE EXPRESSION OF HDAC5 AND 9 AT THE SAME TIME INTERVALS. BEYOND THIS, STRIKING SIMILARITIES BETWEEN BOTH TEMPORAL LOBE EPILEPSY MODELS SUCH AS FAST DECREASES IN HDAC7 AND 10 MRNAS DURING THE ACUTE STATUS EPILEPTICUS WERE OBSERVED, NOTABLY ALSO IN THE CONTRALATERAL HIPPOCAMPUS NOT AFFECTED BY NEURODEGENERATION. THE PARTICULAR PATTERNS OF HDAC MRNA EXPRESSION SUGGEST A ROLE IN EPILEPTOGENESIS AND GRANULE CELL DISPERSION. REDUCED EXPRESSION OF HDACS MAY RESULT IN INCREASED EXPRESSION OF PRO- AND ANTICONVULSIVE PROTEINS. ON THE OTHER HAND, EXPORT OF HDACS FROM THE NUCLEUS INTO THE CYTOPLASM COULD ALLOW FOR DEACETYLATION OF CYTOPLASMATIC PROTEINS INVOLVED IN AXONAL AND DENDRITIC REMODELING, LIKE GRANULE CELL DISPERSION. HDAC 5 AND HDAC 9 EXPRESSION IS HIGHLY INCREASED IN GRANULE CELLS OF THE KA-INJECTED HIPPOCAMPUS AND PARALLELS GRANULE CELL DISPERSION. BOTH HDACS ARE THOUGHT TO BE TARGETED TO THE CYTOPLASM AND TO ACT THERE BY DEACETYLATING CYTOPLASMATIC (E.G. CYTOSCELETON-RELATED) PROTEINS. 2016 3 5497 42 REVIEW: ANIMAL MODELS OF ACQUIRED EPILEPSY: INSIGHTS INTO MECHANISMS OF HUMAN EPILEPTOGENESIS. IN MANY PATIENTS WHO SUFFER FROM EPILEPSIES, RECURRENT EPILEPTIC SEIZURES DO NOT START AT BIRTH BUT DEVELOP LATER IN LIFE. THIS HOLDS PARTICULARLY TRUE FOR EPILEPSIES WITH A FOCAL SEIZURE ORIGIN INCLUDING FOCAL CORTICAL DYSPLASIAS AND TEMPORAL LOBE EPILEPSY (TLE). TLE MOST FREQUENTLY HAS ITS SEIZURE ONSET IN THE HIPPOCAMPAL FORMATION. HIPPOCAMPAL BIOPSIES OF PHARMACORESISTANT TLE PATIENTS UNDERGOING EPILEPSY SURGERY FOR SEIZURE CONTROL MOST FREQUENTLY REVEAL THE DAMAGE PATTERN OF HIPPOCAMPAL SCLEROSIS, THAT IS, SEGMENTAL NEURONAL CELL LOSS AND CONCOMITANT ASTROGLIOSIS. MANY TLE PATIENTS REPORT ON TRANSIENT BRAIN INSULTS EARLY IN LIFE, WHICH IS FOLLOWED BY A 'LATENCY' PERIOD LACKING SEIZURE ACTIVITY OF MONTHS OR EVEN YEARS BEFORE CHRONIC RECURRENT SEIZURES START. THE PLETHORA OF STRUCTURAL AND CELLULAR MECHANISMS THAT CONVERT THE HIPPOCAMPAL FORMATION TO BECOME CHRONICALLY HYPEREXCITABLE AFTER A TRANSIENT INSULT TO THE BRAIN ARE SUMMARIZED UNDER THE TERM EPILEPTOGENESIS. IN CONTRAST TO THE OBSTACLES ARISING FOR EXPERIMENTAL STUDIES OF EPILEPTOGENESIS ASPECTS IN HUMAN SURGICAL HIPPOCAMPAL TISSUE, RECENT ANIMAL MODEL APPROACHES ALLOW INSIGHTS INTO MECHANISMS OF EPILEPTOGENESIS. RELEVANT MODELS OF TRANSIENT BRAIN INSULTS IN THIS CONTEXT COMPRISE SEVERAL DISTINCT TYPES OF LESIONS INCLUDING EXCITOXIC STATUS EPILEPTICUS (SE), ELECTRICAL SEIZURE INDUCTION, TRAUMATIC BRAIN INJURY, INDUCTION OF INFLAMMATORY PROCESSES BY HYPERTHERMIA AND VIRAL INFLAMMATION AND OTHERS. IN PATHOGENETIC TERMS, ABERRANT TRANSCRIPTIONAL AND EPIGENETIC REPROGRAMMING, ACQUIRED CHANNEL- AND SYNAPTOPATHIES, NEURONAL NETWORK AND BLOOD-BRAIN BARRIER DYSFUNCTION AS WELL AS INNATE AND ADAPTIVE IMMUNITY-MEDIATED DAMAGE PLAY MAJOR ROLES. IN SUBSEQUENT STEPS, RESPECTIVE ANIMAL MODELS HAVE BEEN USED IN ORDER TO TEST WHETHER THIS DYNAMIC PROCESS CAN BE EITHER RETARDED OR EVEN ABOLISHED BY INTERFERING WITH EPILEPTOGENIC MECHANISMS. WELL-CONTROLLED SUBSEQUENT ANALYSES OF EPILEPTOGENIC CASCADES CHARACTERIZED IN ANIMAL MODELS USING CAREFULLY STRATIFIED HUMAN HIPPOCAMPAL BIOPSIES TO EXPLOIT THE UNIQUE OPPORTUNITIES GIVEN BY THESE RARE AND PRECIOUS BRAIN TISSUE SAMPLES AIM TO TRANSLATE INTO NOVEL ANTIEPILEPTOGENIC APPROACHES. RESPECTIVE PRECLINICAL TESTS CAN OPEN ENTIRELY NEW PERSPECTIVES FOR TAILOR-MADE TREATMENTS IN PATIENTS WITH THE POTENTIAL TO AVOID THE EMERGENCE OF CHRONIC FOCAL SEIZURE EVENTS. 2018 4 893 41 CHRONIC ETHANOL EXPOSURE AND WITHDRAWAL IMPAIR SYNAPTIC GABA(A) RECEPTOR-MEDIATED NEUROTRANSMISSION IN DEEP-LAYER PREFRONTAL CORTEX. BACKGROUND: THE PREFRONTAL CORTEX (PFC) ACTS AS AN INTEGRATIVE HUB FOR THE PROCESSING OF CORTICAL AND SUBCORTICAL INPUT INTO MEANINGFUL EFFERENT SIGNALING, PERMITTING COMPLEX ASSOCIATIVE BEHAVIORS. PFC DYSFUNCTION IS CONSISTENTLY OBSERVED WITH ETHANOL (ETOH) DEPENDENCE AND IS A CORE COMPONENT OF THE PATHOLOGY OF ALCOHOL USE DISORDERS IN CURRENT MODELS OF ADDICTION. WHILE INTRACORTICAL GAMMA-AMINOBUTRYRIC ACID (GABA)ERGIC NEUROTRANSMISSION IS UNDERSTOOD TO BE ESSENTIAL FOR MAINTAINING COORDINATED NETWORK ACTIVITY WITHIN THE CORTEX, RELATIVELY LITTLE IS KNOWN REGARDING FUNCTIONAL GABAERGIC ADAPTATIONS IN PFC DURING ETOH DEPENDENCE. METHODS: IN THE PRESENT STUDY, MALE AND FEMALE (> POSTNATAL DAY 60) SPRAGUE-DAWLEY RATS WERE ADMINISTERED ETOH (5.0 G/KG; INTRAGASTRIC GAVAGE) FOR 14 TO 15 CONSECUTIVE DAYS. TWENTY-FOUR HOURS AFTER THE FINAL ADMINISTRATION, ANIMALS WERE SACRIFICED AND BRAINS EXTRACTED FOR ELECTROPHYSIOLOGICAL RECORDINGS OF ISOLATED GABA(A) RECEPTOR-MEDIATED CURRENTS OR ANALYSIS OF GABA(A) RECEPTOR SUBUNIT PROTEIN EXPRESSION IN DEEP-LAYER PFC NEURONS. RESULTS: CHRONIC ETOH EXPOSURE SIGNIFICANTLY ATTENUATED ACTIVITY-DEPENDENT SPONTANEOUS GABA(A) RECEPTOR-MEDIATED INHIBITORY POSTSYNAPTIC CURRENT (IPSC) FREQUENCY WITH NO EFFECT ON AMPLITUDE. FURTHERMORE, ANALYSIS OF IPSC DECAY KINETICS REVEALED A SIGNIFICANT ENHANCEMENT OF IPSC DECAY TIME THAT WAS ASSOCIATED WITH DECREMENTS IN EXPRESSION OF THE ALPHA1 GABA(A) RECEPTOR SUBUNIT, INDICATIVE OF FURTHER IMPAIRED PHASIC INHIBITION. THESE PHENOMENA OCCURRED IRRESPECTIVE OF NEURON PROJECTION DESTINATION AND SEX. BASED ON PREVIOUS OBSERVATIONS BY OUR LABORATORY OF AN EPIGENETIC MECHANISM FOR ETOH-INDUCED CHANGES IN CORTICAL GABA(A) RECEPTOR SUBUNIT EXPRESSION, THE HISTONE DEACETYLASE INHIBITOR TRICHOSTATIN A WAS ADMINISTERED TO WATER- AND ETOH-EXPOSED ANIMALS, AND PREVENTED ETOH-INDUCED CHANGES IN SPONTANEOUS IPSC FREQUENCY, IPSC DECAY KINETICS, AND GABA(A) RECEPTOR SUBUNIT EXPRESSION. CONCLUSIONS: TAKEN TOGETHER, THESE RESULTS DEMONSTRATE THAT CHRONIC ETOH EXPOSURE IMPAIRS SYNAPTIC INHIBITORY NEUROTRANSMISSION IN DEEP-LAYER PYRAMIDAL NEURONS OF THE MEDIAL PFC IN BOTH MALE AND FEMALE RATS. THESE MALADAPTATIONS OCCUR IN NEURONS PROJECTING TO NUMEROUS REGIONS IMPLICATED IN THE SEQUELAE OF ETOH DEPENDENCE, OFFERING A MECHANISTIC LINK BETWEEN THE MANIFESTATION OF PFC DYSFUNCTION AND NEGATIVE AFFECTIVE STATES OBSERVED WITH EXTENDED CONSUMPTION. 2019 5 5784 36 SPONTANEOUS FIRING AS AN EPIGENETIC FACTOR IN BRAIN DEVELOPMENT--PHYSIOLOGICAL CONSEQUENCES OF CHRONIC TETRODOTOXIN AND PICROTOXIN EXPOSURE ON CULTURED RAT NEOCORTEX NEURONS. FUNCTIONAL CONSEQUENCES OF EITHER SUPPRESSING OR INTENSIFYING SPONTANEOUS NEURONAL FIRING HAVE BEEN STUDIED IN DEVELOPING RAT CEREBRAL CORTEX CULTURES USING, RESPECTIVELY, TETRODOTOXIN (TTX) AND PICROTOXIN (PTX) ADDED CHRONICALLY TO THE GROWTH MEDIUM. SIMPLE MEASURES DERIVED FROM THE INTERSPIKE INTERVAL HISTOGRAM WERE ABLE TO POWERFULLY DISCRIMINATE BETWEEN AGE AND TREATMENT GROUPS. AFTER RETURN TO CONTROL MEDIUM, MOST TTX-TREATED NEURONS SPONTANEOUSLY DISPLAYED STEREOTYPED CLUSTERING OF ACTION POTENTIALS ('PHASIC' FIRING) WHICH CLOSELY RESEMBLED THE CHARACTERISTIC FIRING PATTERNS SEEN ACUTELY IN THE PRESENCE OF PTX. THE 'TTX-SYNDROME' THUS SUGGESTS THAT GABAERGIC SYNAPTIC INHIBITION IS INEFFECTIVE IN CORTICAL NETWORKS GROWN UNDER CONDITIONS WHICH PREVENT THE EXPRESSION OF BIOELECTRIC ACTIVITY. IN CONTRAST, AFTER RETURN TO CONTROL MEDIUM, NEURONS WHICH HAD BEEN PARTIALLY DISINHIBITED THROUGHOUT DEVELOPMENT (BY CONTINUOUS EXPOSURE TO PTX) HAD EVEN LESS PHASIC FIRING THAN WAS MEASURED IN AGE-MATCHED CONTROLS. BASED UPON THESE AND PREVIOUS FINDINGS, A TWO (MAIN) FACTOR MODEL IS PUT FORTH WHICH CAN ECONOMICALLY ACCOUNT FOR THE MAJOR EFFECTS. THE WORKING HYPOTHESIS EMBODIED IN THIS MODEL IS THAT PHASIC NEURONAL DISCHARGES NOT ONLY ACCELERATE THE MATURATION OF EXCITATORY CONNECTIONS WITHIN THE NEOCORTEX BUT, EVEN MORE IMPORTANT, ARE CRUCIAL FOR THE DEVELOPMENT OF ADEQUATE INHIBITORY SYNAPTIC TRANSMISSION. 1992 6 124 45 A SYSTEMS APPROACH DELIVERS A FUNCTIONAL MICRORNA CATALOG AND EXPANDED TARGETS FOR SEIZURE SUPPRESSION IN TEMPORAL LOBE EPILEPSY. TEMPORAL LOBE EPILEPSY IS THE MOST COMMON DRUG-RESISTANT FORM OF EPILEPSY IN ADULTS. THE REORGANIZATION OF NEURAL NETWORKS AND THE GENE EXPRESSION LANDSCAPE UNDERLYING PATHOPHYSIOLOGIC NETWORK BEHAVIOR IN BRAIN STRUCTURES SUCH AS THE HIPPOCAMPUS HAS BEEN SUGGESTED TO BE CONTROLLED, IN PART, BY MICRORNAS. TO SYSTEMATICALLY ASSESS THEIR SIGNIFICANCE, WE SEQUENCED ARGONAUTE-LOADED MICRORNAS TO DEFINE FUNCTIONALLY ENGAGED MICRORNAS IN THE HIPPOCAMPUS OF THREE DIFFERENT ANIMAL MODELS IN TWO SPECIES AND AT SIX TIME POINTS BETWEEN THE INITIAL PRECIPITATING INSULT THROUGH TO THE ESTABLISHMENT OF CHRONIC EPILEPSY. WE THEN SELECTED COMMONLY UP-REGULATED MICRORNAS FOR A FUNCTIONAL IN VIVO THERAPEUTIC SCREEN USING OLIGONUCLEOTIDE INHIBITORS. ARGONAUTE SEQUENCING GENERATED 1.44 BILLION SMALL RNA READS OF WHICH UP TO 82% WERE MICRORNAS, WITH OVER 400 UNIQUE MICRORNAS DETECTED PER MODEL. APPROXIMATELY HALF OF THE DETECTED MICRORNAS WERE DYSREGULATED IN EACH EPILEPSY MODEL. WE PRIORITIZED COMMONLY UP-REGULATED MICRORNAS THAT WERE FULLY CONSERVED IN HUMANS AND DESIGNED CUSTOM ANTISENSE OLIGONUCLEOTIDES FOR THESE CANDIDATE TARGETS. ANTISEIZURE PHENOTYPES WERE OBSERVED UPON KNOCKDOWN OF MIR-10A-5P, MIR-21A-5P, AND MIR-142A-5P AND ELECTROPHYSIOLOGICAL ANALYSES INDICATED BROAD SAFETY OF THIS APPROACH. COMBINED INHIBITION OF THESE THREE MICRORNAS REDUCED SPONTANEOUS SEIZURES IN EPILEPTIC MICE. PROTEOMIC DATA, RNA SEQUENCING, AND PATHWAY ANALYSIS ON PREDICTED AND VALIDATED TARGETS OF THESE MICRORNAS IMPLICATED DEREPRESSED TGF-BETA SIGNALING AS A SHARED SEIZURE-MODIFYING MECHANISM. CORRESPONDINGLY, INHIBITION OF TGF-BETA SIGNALING OCCLUDED THE ANTISEIZURE EFFECTS OF THE ANTAGOMIRS. TOGETHER, THESE RESULTS IDENTIFY SHARED, DYSREGULATED, AND FUNCTIONALLY ACTIVE MICRORNAS DURING THE PATHOGENESIS OF EPILEPSY WHICH REPRESENT THERAPEUTIC ANTISEIZURE TARGETS. 2020 7 837 46 CHEMICALLY INDUCED RENAL TUBULE TUMORS IN THE LABORATORY RAT AND MOUSE: REVIEW OF THE NCI/NTP DATABASE AND CATEGORIZATION OF RENAL CARCINOGENS BASED ON MECHANISTIC INFORMATION. THE INCIDENCE OF RENAL TUBULE CARCINOGENESIS IN MALE AND FEMALE RATS OR MICE WITH 69 CHEMICALS FROM THE 513 BIOASSAYS CONDUCTED TO DATE BY THE NCI/NTP HAS BEEN COLLATED, THE CHEMICALS CATEGORIZED, AND THE RELATIONSHIP BETWEEN CARCINOGENESIS AND RENAL TUBULE HYPERPLASIA AND EXACERBATION OF THE SPONTANEOUS, AGE-RELATED RODENT DISEASE CHRONIC PROGRESSIVE NEPHROPATHY (CPN) EXAMINED. WHERE INFORMATION ON MECHANISM OR MODE OF ACTION EXISTS, THE CHEMICALS HAVE BEEN CATEGORIZED BASED ON THEIR ABILITY TO DIRECTLY OR INDIRECTLY INTERACT WITH RENAL DNA, OR ON THEIR ACTIVITY VIA EPIGENETIC PATHWAYS INVOLVING EITHER DIRECT OR INDIRECT CYTOTOXICITY WITH REGENERATIVE HYPERPLASIA, OR EXACERBATION OF CPN. NINE CHEMICALS WERE IDENTIFIED AS DIRECTLY INTERACTING WITH DNA, WITH SIX OF THESE PRODUCING RENAL TUBULE TUMORS AT HIGH INCIDENCE IN RATS OF BOTH SEXES, AND IN SOME CASES ALSO IN MICE. OCHRATOXIN A WAS THE MOST POTENT COMPOUND IN THIS GROUP, PRODUCING A HIGH TUMOR INCIDENCE AT VERY LOW DOSES, OFTEN WITH METASTASIS. THREE CHEMICALS WERE DISCUSSED IN THE CONTEXT OF INDIRECT DNA DAMAGE MEDIATED BY AN OXIDATIVE FREE RADICAL MECHANISM, ONE OF THESE BEING FROM THE NTP DATABASE. A THIRD CATEGORY INCLUDED FOUR CHEMICALS THAT HAD THE POTENTIAL TO CAUSE DNA DAMAGE FOLLOWING CONJUGATION WITH GLUTATHIONE AND SUBSEQUENT ENZYMATIC ACTIVATION TO A REACTIVE SPECIES, USUALLY A THIOL-CONTAINING ENTITY. TWO CHEMICALS WERE ALLOCATED INTO THE CATEGORY INVOLVING A DIRECT CYTOTOXIC ACTION ON THE RENAL TUBULE FOLLOWED BY SUSTAINED COMPENSATORY CELL PROLIFERATION, WHILE NINE WERE INCLUDED IN A GROUP WHERE THE CELL LOSS AND SUSTAINED INCREASE IN RENAL TUBULE CELL TURNOVER WERE DEPENDENT ON LYSOSOMAL ACCUMULATION OF THE MALE RAT-SPECIFIC PROTEIN, ALPHA2MU-GLOBULIN. IN A SIXTH CATEGORY, MORPHOLOGIC EVIDENCE ON TWO CHEMICALS INDICATED THAT THE RENAL TUMORS WERE A CONSEQUENCE OF EXACERBATED CPN. FOR THE REMAINING CHEMICALS, THERE WERE NO PERTINENT DATA ENABLING ASSIGNMENT TO A MECHANISTIC CATEGORY. ACCORDINGLY, THESE CHEMICALS, ACTING THROUGH AN AS YET UNKNOWN MECHANISM, WERE GROUPED AS EITHER BEING ASSOCIATED WITH AN ENHANCEMENT OF CPN (CATEGORY 7, 16 CHEMICALS), OR NOT ASSOCIATED WITH ENHANCED CPN (CATEGORY 8, 4 CHEMICALS). A NINTH CATEGORY DEALT WITH 11 CHEMICALS THAT WERE REGARDED AS PRODUCING INCREASES IN RENAL TUBULE TUMORS THAT DID NOT REACH STATISTICAL SIGNIFICANCE. A 10TH CATEGORY DISCUSSED 6 CHEMICALS THAT INDUCED RENAL TUMORS IN MICE BUT NOT IN RATS, PLUS 8 CHEMICALS THAT PRODUCED A LOW INCIDENCE OF RENAL TUBULE TUMORS IN MICE THAT DID NOT REACH STATISTICAL SIGNIFICANCE. AS MORE MECHANISTIC DATA ARE GENERATED, SOME CHEMICALS WILL INEVITABLY BE PLACED IN DIFFERENT GROUPS, PARTICULARLY THOSE FROM CATEGORIES 7 AND 8. A LARGE NUMBER OF CHEMICALS IN THE SERIES EXACERBATED CPN, BUT THOSE IN CATEGORY 7 ESPECIALLY MAY BE CANDIDATES FOR INCLUSION IN CATEGORY 6 WHEN FURTHER INFORMATION IS GLEANED FROM THE RELEVANT NTP STUDIES. ALSO, NEW DATA ON SPECIFIC CHEMICALS WILL PROBABLY EXPAND CATEGORY 5 AS CYTOTOXICITY AND CELL REGENERATION ARE IDENTIFIED AS OBLIGATORY STEPS IN RENAL CARCINOGENESIS IN MORE CASES. ADDITIONAL CONFIRMATORY OUTCOMES ARISING FROM THIS REVIEW ARE THAT METASTASES FROM RENAL TUBULE TUMORS, WHILE ENCOUNTERED WITH CHEMICALS CAUSING DNA DAMAGE, ARE RARE WITH THOSE ACTING THROUGH AN EPIGENETIC PATHWAY, WITH THE EXCEPTION BEING FUMONISIN B1; THAT MALE RATS AND MICE ARE GENERALLY MORE SUSCEPTIBLE THAN FEMALE RATS AND MICE TO CHEMICAL INDUCTION OF RENAL TUBULE TUMORS; AND THAT A BACKGROUND OF ATYPICAL TUBULE HYPERPLASIA IS A USEFUL INDICATOR REFLECTING A CHEMICALLY ASSOCIATED RENAL TUBULE TUMOR RESPONSE. WITH RESPECT TO RENAL TUBULE TUMORS AND HUMAN RISK ASSESSMENT, CHEMICALS IN CATEGORIES 1 AND 2, AND POSSIBLY 3, WOULD CURRENTLY BE JUDGED BY LINEAR DEFAULT METHODS; CHEMICALS IN CATEGORY 4 (AND PROBABLY SOME IN CATEGORY 3) AS EXHIBITING A THRESHOLD OF ACTIVITY WARRANTING THE BENCHMARK APPROACH; AND THOSE IN CATEGORIES 5 AND 6 AS REPRESENTING MECHANISMS THAT HAVE NO RELEVANCE FOR EXTRAPOLATION TO HUMANS. 2004 8 2057 47 EPIGENETIC CONTROL OF EPILEPSY TARGET GENES CONTRIBUTES TO A CELLULAR MEMORY OF EPILEPTOGENESIS IN CULTURED RAT HIPPOCAMPAL NEURONS. HYPERSYNCHRONOUS NEURONAL EXCITATION MANIFESTS CLINICALLY AS SEIZURE (ICTOGENESIS), AND MAY RECUR SPONTANEOUSLY AND REPETITIVELY AFTER A VARIABLE LATENCY PERIOD (EPILEPTOGENESIS). DESPITE TREMENDOUS RESEARCH EFFORTS TO DESCRIBE MOLECULAR PATHWAYS AND SIGNATURES OF EPILEPTOGENESIS, MOLECULAR PATHOMECHANISMS LEADING TO CHRONIC EPILEPSY REMAIN TO BE CLARIFIED. WE HYPOTHESIZED THAT EPIGENETIC MODIFICATIONS MAY FORM THE BASIS FOR A CELLULAR MEMORY OF EPILEPTOGENESIS, AND USED A PRIMARY NEURONAL CELL CULTURE MODEL OF THE RAT HIPPOCAMPUS TO STUDY THE TRANSLATION OF MASSIVE NEURONAL EXCITATION INTO PERSISTING CHANGES OF EPIGENETIC SIGNATURES AND PRO-EPILEPTOGENIC TARGET GENE EXPRESSION. INCREASED SPONTANEOUS ACTIVATION OF CULTURED NEURONS WAS DETECTED 3 AND 7 DAYS AFTER STIMULATION WITH 10 MUM GLUTAMATE WHEN COMPARED TO SHAM-TREATED TIME-MATCHED CONTROLS USING CALCIUM-IMAGING IN VITRO. CHROMATIN-IMMUNOPRECIPITATION EXPERIMENTS REVEALED SHORT-TERM (3 H, 7 H, AND 24 H) AND LONG-TERM (3 D AND 2 WEEKS) CHANGES IN HISTONE MODIFICATIONS, WHICH WERE DIRECTLY LINKED TO DECREASED EXPRESSION OF TWO SELECTED EPILEPSY TARGET GENES, E.G. EXCITATORY GLUTAMATE RECEPTOR GENES GRIA2 AND GRIN2A. INCREASED PROMOTER METHYLATION OBSERVED 4 WEEKS AFTER GLUTAMATE STIMULATION AT RESPECTIVE GENES SUGGESTED LONG-TERM REPRESSION OF GRIA2 AND GRIN2A GENES. INHIBITION OF GLUTAMATERGIC ACTIVATION OR BLOCKING THE PROPAGATION OF ACTION POTENTIALS IN CULTURED NEURONS RESCUED ALTERED GENE EXPRESSION AND REGULATORY EPIGENETIC MODIFICATIONS. OUR DATA SUPPORT THE CONCEPT OF A CELLULAR MEMORY OF EPILEPTOGENESIS AND PERSISTING EPIGENETIC MODIFICATIONS OF EPILEPSY TARGET GENES, WHICH ARE ABLE TO TURN NORMAL INTO PRO-EPILEPTIC NEURONS AND CIRCUITS. 2017 9 2827 32 FLUOXETINE INCREASES HIPPOCAMPAL NEUROGENESIS AND INDUCES EPIGENETIC FACTORS BUT DOES NOT IMPROVE FUNCTIONAL RECOVERY AFTER TRAUMATIC BRAIN INJURY. THE SELECTIVE SEROTONIN REUPTAKE INHIBITOR FLUOXETINE INDUCES HIPPOCAMPAL NEUROGENESIS, STIMULATES MATURATION AND SYNAPTIC PLASTICITY OF ADULT HIPPOCAMPAL NEURONS, AND REDUCES MOTOR/SENSORY AND MEMORY IMPAIRMENTS IN SEVERAL CNS DISORDERS. IN THE SETTING OF TRAUMATIC BRAIN INJURY (TBI), ITS EFFECTS ON NEUROPLASTICITY AND FUNCTION HAVE YET TO BE THOROUGHLY INVESTIGATED. HERE WE EXAMINED THE EFFICACY OF FLUOXETINE AFTER A MODERATE TO SEVERE TBI, PRODUCED BY A CONTROLLED CORTICAL IMPACT. THREE DAYS AFTER TBI OR SHAM SURGERY, MICE WERE TREATED WITH FLUOXETINE (10 MG/KG/D) OR VEHICLE FOR 4 WEEKS. TO EVALUATE THE EFFECTS OF FLUOXETINE ON NEUROPLASTICITY, HIPPOCAMPAL NEUROGENESIS AND EPIGENETIC MODIFICATION WERE STUDIED. STEREOLOGIC ANALYSIS OF THE DENTATE GYRUS REVEALED A SIGNIFICANT INCREASE IN DOUBLECORTIN-POSITIVE CELLS IN BRAIN-INJURED ANIMALS TREATED WITH FLUOXETINE RELATIVE TO CONTROLS, A FINDING CONSISTENT WITH ENHANCED HIPPOCAMPAL NEUROGENESIS. EPIGENETIC MODIFICATIONS, INCLUDING AN INCREASE IN HISTONE 3 ACETYLATION AND INDUCTION OF METHYL-CPG-BINDING PROTEIN, A TRANSCRIPTION FACTOR INVOLVED IN DNA METHYLATION, WERE LIKEWISE SEEN BY IMMUNOHISTOCHEMISTRY AND QUANTITATIVE WESTERN IMMUNOBLOTS, RESPECTIVELY, IN BRAIN-INJURED ANIMALS TREATED WITH FLUOXETINE. TO DETERMINE IF FLUOXETINE IMPROVES NEUROLOGICAL OUTCOMES AFTER TBI, GAIT FUNCTION AND SPATIAL LEARNING AND MEMORY WERE ASSESSED BY THE CATWALK-ASSISTED GAIT TEST AND BARNES MAZE TEST, RESPECTIVELY. NO DIFFERENCES IN THESE PARAMETERS WERE SEEN BETWEEN FLUOXETINE- AND VEHICLE-TREATED ANIMALS. THUS WHILE FLUOXETINE ENHANCED NEUROPLASTICITY IN THE HIPPOCAMPUS AFTER TBI, ITS CHRONIC ADMINISTRATION DID NOT RESTORE LOCOMOTOR FUNCTION OR AMELIORATE MEMORY DEFICITS. 2011 10 3934 45 LIVER TUMOR INDUCTION. THE SIGNIFICANCE OF THE DEVELOPMENT OF NODULAR LIVER LESIONS IN RODENTS FOLLOWING THE ADMINISTRATION OF TEST AGENTS RAISES SEVERAL QUESTIONS WHICH COULD BE PLACED IN ONE OF TWO GENERAL CATEGORIES: DIAGNOSTIC AND INTERPRETATIONAL. FROM A DIAGNOSTIC POINT OF VIEW, THE PROPER CLASSIFICATION OF LIVER TUMORS INTO A BENIGN AND MALIGNANT CATEGORY HAS TO BE BASED ON THE DIRECT CORRELATION BETWEEN THE MORPHOLOGY AND THE BIOLOGIC BEHAVIOR OF THE LESIONS. THEREFORE, EXTREME CARE SHOULD BE TAKEN TO SEPARATE THE MALIGNANT TUMORS FROM THE BENIGN AND THE BENIGN NEOPLASIA FROM THE HYPERPLASIA. THE SUBSTITUTION OF THE TERM "NEOPLASTIC NODULE" FOR HYPERPLASTIC NODULE IN RATS IS MISLEADING. MOST OF THESE NODULES, WHEN INDUCED UNDER SPECIAL EXPERIMENTAL CONDITIONS, MAY REGRESS OR REMODEL AND THUS THEY ARE NOT NEOPLASTIC IN NATURE. CHRONIC CARCINOGENICITY BIOASSAYS SHOULD INCLUDE "STOP" TYPE OF TREATMENT LEAVING ENOUGH OF THE OBSERVATIONAL TIME TO ESTABLISH THE FATE OF INDUCED NODULAR LESIONS. THE INDUCTION OF HISTOCHEMICALLY CHANGED FOCI CAN SERVE ONLY AS AN INDICATION OF POTENTIAL HEPATOCARCINOGENICITY AND SHOULD NOT BE EQUATED WITH THE INDUCTION OF BONA FIDE CANCER. THE BIOLOGIC INTERPRETATION OF NODULAR LIVER LESIONS, ESPECIALLY IN MICE, NEEDS FURTHER SCRUTINY BECAUSE THESE LESIONS HAVE A TENDENCY TO DEVELOP SPONTANEOUSLY WITH HIGH INCIDENCE IN SOME STRAINS. THIS CHARACTERISTIC THEN RAISES THE QUESTION AS TO THE MECHANISM BY WHICH VARIOUS AGENTS AUGMENT AND/OR ACCELERATE THE DEVELOPMENT OF SUCH TUMORS. IS THIS ACTION PRIMARILY PROMOTING OR INITIATING IN NATURE OR DOES IT REPRESENT THE INDUCTION OF TUMORS DE NOVO? THE ANSWER TO THIS DILEMMA MAY HAVE A DECISIVE BEARING ON CARCINOGENIC RISK ASSESSMENT AND THE TYPE OF REGULATORY ACTION, SINCE THE PROMOTING AGENTS POSSESS A THRESHOLD EFFECT AND THE PROMOTED CHANGES MAY REGRESS FOLLOWING WITHDRAWAL OF TREATMENT. THE INTERPRETATION OF HEPATOCARCINOGENESIS IS FURTHER COMPLICATED BY THE FACT THAT SEVERAL FACTORS, SUCH AS SEX HORMONAL ENVIRONMENT, INCREASED MITOTIC ACTIVITY FOLLOWING AN EXCESSIVE LOSS OF PARENCHYMAL CELLS, DEGREE OF CALORIC INTAKE, ENZYMATIC COMPLEMENT, AND ANIMALS' AGE AT THE TIME OF THE EXPOSURE TO A TEST AGENT, MAY INFLUENCE THE OUTCOME OF LIVER TUMOR DEVELOPMENT BY MODULATING "INITIATION" AND/OR "PROMOTION" OF CARCINOGENESIS. BROAD FLUCTUATION IN THE HISTORIC INCIDENCE OF LIVER TUMORS FURTHER COMPOUNDS THE COMPLEXITY OF THE PROPER BIOASSAY INTERPRETATION. THE SPECIFICALLY DESIGNED EXPERIMENTS MAY HAVE THE OBJECTIVE TO EXPLORE PREDOMINANTLY THE INITIATING OR PROMOTING EFFECTS OF THE AGENT. SUCH PROTOCOLS SHOULD BE USED WHENEVER NECESSARY TO DIFFERENTIATE BETWEEN THESE TWO MECHANISMS OF ACTION. IN THE CAUCASIANS, THE "SPONTANEOUS" DEVELOPMENT OF THE PRIMARY HEPATOCELLULAR TUMORS IS RARE. THE MAJORITY OF THESE TUMORS ARE MALIGNANT AND RAPIDLY FATAL. ACCORDING TO SOME HUMAN PATHOLOGISTS, THE BENIGN VARIETY OF LIVER TUMORS IS RARE AND IT DOES NOT REPRESENT NECESSARILY A PREMALIGNANT STAGE IN TUMOR DEVELOPMENT. CARCINOMA OF THE LIVER MAY OCCUR IN INFANCY, ESPECIALLY IN MALES BEFORE THE AGE OF 2 YEARS. THIS SUGGESTS A GENETIC CAUSATION OR CARCINOGENIC EXPOSURE IN UTERO. ONE OF THE GEOGRAPHIC FACTORS WHICH SIGNIFICANTLY ENHANCES THE INCIDENCE OF HEPATOCELLULAR CARCINOMA IN HUMANS IS EXPOSURE TO AFLATOXIN B(1) WHICH IS APPARENTLY POTENTIATED BY CONCURRENT LIVER CIRRHOSIS. BECAUSE MANY MORE AGENTS HAVE BEEN FOUND TO BE HEPATOCARCINOGENIC IN MICE AND RATS THAN IN MEN, A QUESTION ARISES AS TO THE DIRECT RELEVANCE OF RODENT STUDIES TO HUMANS. A BALANCED ASSESSMENT OF THE CARCINOGENICITY OF THE AGENT COULD ONLY BE REACHED IN CONSIDERING BOTH THE PHARMACOKINETICS AND THE DEVELOPMENT OF MALIGNANT NEOPLASIA IN OTHER ORGANS. IN THE CASE OF POSITIVE CARCINOGENICITY ASSESSMENT, THE OUTCOME OF THE MUTAGENICITY BIOASSAYS CAN SUGGEST GENIC (GENOTOXIC) OR PARAGENIC (EPIGENETIC) MODE OF ACTION IN MAMMALIAN SYSTEMS. 1982 11 2683 36 EVALUATION OF THE IMPACT OF S-ADENOSYLMETHIONINE-DEPENDENT METHYLTRANSFERASE INHIBITOR, 3-DEAZANEPLANOCIN A, ON TISSUE INJURY AND COGNITIVE FUNCTION IN MICE. CANCER PATIENTS DISPLAY COGNITIVE IMPAIRMENT DUE, AT LEAST PARTLY, TO THE TREATMENTS. ADDITIONALLY, CHEMOTHERAPEUTIC TREATMENTS CAN LEAD TO ORGAN INJURY, LIMITING THEIR USE, AND ARE LIKELY TO HAVE NEGATIVE IMPACTS ON PATIENTS' QUALITY OF LIFE. THE AIM OF THIS STUDY WAS TO INVESTIGATE THE TOXICITY OF 3-DEAZANEPLANOCIN A (DZNEP) ON SEVERAL TISSUES AND ORGANS, AS WELL AS ON COGNITIVE FUNCTIONS. DZNEP IS AN INHIBITOR OF S-ADENOSYLMETHIONINE-DEPENDENT METHYLTRANSFERASE (IN PARTICULAR OF THE HISTONE METHYLTRANSFERASE EZH2) WHICH SHOWED ANTITUMORAL FUNCTIONS IN PRECLINICAL TRIALS BUT WHOSE EFFECTS ON BEHAVIOR AND ON ORGANS (SIDE EFFECTS) ARE NOT KNOWN. CHRONIC INJECTIONS OF DZNEP WERE PERFORMED INTRAPERITONEALLY IN MALE NMRI MICE (2 MG/KG; I.P.; THREE TIMES PER WEEK) DURING 8 WEEKS. A FOLLOW-UP OF BODY WEIGHT WAS ASSESSED DURING ALL EXPERIMENTS. HISTOLOGICAL ANALYSIS WERE PERFORMED ON SEVERAL ORGANS. EZH2 EXPRESSION AND H3K27ME3 WERE ASSAYED BY WESTERN-BLOT. SEVERAL BEHAVIORAL TESTS WERE PERFORMED DURING TREATMENT AND 2 WEEKS AFTER. A PARTICULAR FOCUS WAS MADE ON SPONTANEOUS LOCOMOTOR ACTIVITY, COGNITIVE FUNCTIONS (SPONTANEOUS ALTERNATION AND RECOGNITION MEMORY), AND ANXIETY- AND DEPRESSION-RELATED BEHAVIOR. HEMATOLOGICAL MODIFICATIONS WERE ALSO ASSESSED. CHRONIC DZNEP TREATMENT TRANSIENTLY REDUCED ANIMAL GROWTH. IT HAD NO EFFECT ON MOST ORGANS BUT PROVOKED A REVERSIBLE SPLENOMEGALY, AND PERSISTENT TESTIS REDUCTION AND ERYTHROPOIESIS. DZNEP ADMINISTRATION DID NOT ALTER ANIMAL BEHAVIOR. IN CONCLUSION, THIS STUDY IS ENCOURAGING FOR THE USE OF DZNEP FOR CANCER TREATMENT. INDEED, IT HAS NO EFFECT ON ANIMAL BEHAVIOR, CONFERRING AN ADVANTAGEOUS SAFETY, AND INDUCES IRREVERSIBLE SIDE EFFECTS LIMITED ON TESTIS WHICH ARE UNFORTUNATELY FOUND IN MOST CHEMOTHERAPY TREATMENTS. 2018 12 818 24 CHARACTERISTICS OF THE SPECTRUM OF PROLIFERATIVE LESIONS OBSERVED IN THE KIDNEY AND URINARY BLADDER OF FISCHER 344 RATS AND B6C3F1 MICE. MANY RODENT RENAL AND BLADDER CARCINOGENS RELY UPON EPIGENETIC MECHANISMS OF CARCINOGENESIS; SUCH MECHANISMS ARE LIKELY TO INFLUENCE THE SPECTRUM OF URINARY TRACT TUMORS OBSERVED IN CONTROL AND TREATED ANIMALS. THIS IS REFLECTED IN SEVERAL FEATURES OF CHEMICALLY INDUCED RODENT URINARY TRACT NEOPLASMS, INCLUDING A LOW OVERALL TUMOR INCIDENCE, AN INCREASED PREVALENCE OF URINARY TRACT TUMORS IN RATS COMPARED TO MICE AND MALES COMPARED TO FEMALES, THE TENDENCY FOR EPITHELIAL TUMORS TO PREDOMINATE OVER NONEPITHELIAL TYPES, AND DEMONSTRATED LINKS TO CHRONIC PROGRESSIVE NEPHROPATHY AND UROLITHIASIS. SUCH TENDENCIES ARE ALSO CHARACTERISTIC OF SPONTANEOUS URINARY TRACT TUMORS IN RODENTS. DATA TO SUPPORT THESE OBSERVATIONS CAN BE DERIVED FROM LARGE HISTORICAL DATABASES SUCH AS THE TOXICOLOGY DATA MANAGEMENT SYSTEM, MAINTAINED BY NATIONAL TOXICOLOGY PROGRAM. 2002 13 5250 31 PROGRAMMED DISORDERS OF BETA-CELL DEVELOPMENT AND FUNCTION AS ONE CAUSE FOR TYPE 2 DIABETES? THE GK RAT PARADIGM. NOW THAT THE REDUCTION IN BETA-MASS HAS BEEN CLEARLY ESTABLISHED IN HUMANS WITH TYPE 2 DIABETES MELLITUS (T2DM) 1-4, THE DEBATE FOCUSES ON THE POSSIBLE MECHANISMS RESPONSIBLE FOR DECREASED BETA-CELL NUMBER AND IMPAIRED BETA-CELL FUNCTION AND THEIR MULTIFACTORIAL ETIOLOGY. APPROPRIATE INBRED RODENT MODELS ARE ESSENTIAL TOOLS FOR IDENTIFICATION OF GENES AND ENVIRONMENTAL FACTORS THAT INCREASE THE RISK OF ABNORMAL BETA-CELL FUNCTION AND OF T2DM. THE INFORMATION AVAILABLE IN THE GOTO-KAKIZAKI (GK) RAT, ONE OF THE BEST CHARACTERIZED ANIMAL MODELS OF SPONTANEOUS T2DM, ARE REVIEWED IN SUCH A PERSPECTIVE. WE PROPOSE THAT THE DEFECTIVE BETA-CELL MASS AND FUNCTION IN THE GK MODEL REFLECT THE COMPLEX INTERACTIONS OF THREE PATHOGENIC PLAYERS: (1) SEVERAL INDEPENDENT LOCI CONTAINING GENES CAUSING IMPAIRED INSULIN SECRETION; (2) GESTATIONAL METABOLIC IMPAIRMENT INDUCING A PROGRAMMING OF ENDOCRINE PANCREAS (DECREASED BETA-CELL NEOGENESIS) WHICH IS TRANSMITTED TO THE NEXT GENERATION; AND (3) SECONDARY (ACQUIRED) LOSS OF BETA-CELL DIFFERENTIATION DUE TO CHRONIC EXPOSURE TO HYPERGLYCEMIA (GLUCOTOXICITY). AN IMPORTANT MESSAGE IS THAT THE 'HERITABLE' DETERMINANTS OF T2DM ARE NOT SIMPLY DEPENDANT ON GENETIC FACTORS, BUT PROBABLY INVOLVE TRANSGENERATIONAL EPIGENETIC RESPONSES. 2005 14 6163 27 THE GK RAT BETA-CELL: A PROTOTYPE FOR THE DISEASED HUMAN BETA-CELL IN TYPE 2 DIABETES? INCREASING EVIDENCE INDICATES THAT DECREASED FUNCTIONAL BETA-CELL MASS IS THE HALLMARK OF TYPE 2 DIABETES (T2D) MELLITUS. NOWADAYS, THE DEBATE FOCUSES ON THE POSSIBLE MECHANISMS RESPONSIBLE FOR ABNORMAL ISLET MICROENVIRONMENT, DECREASED BETA-CELL NUMBER, IMPAIRED BETA-CELL FUNCTION, AND THEIR MULTIFACTORIAL AETIOLOGIES. THIS REVIEW IS AIMED TO ILLUSTRATE TO WHAT EXTEND THE GOTO-KAKIZAKI RAT, ONE OF THE BEST CHARACTERIZED ANIMAL MODELS OF SPONTANEOUS T2D, HAS PROVED BE A VALUABLE TOOL OFFERING SUFFICIENT COMMONALITIES TO STUDY THESE ASPECTS. WE PROPOSE THAT THE DEFECTIVE BETA-CELL MASS AND FUNCTION IN THE GK MODEL REFLECT THE COMPLEX INTERACTIONS OF MULTIPLE PATHOGENIC PLAYERS: (I) SEVERAL INDEPENDENT LOCI CONTAINING GENES RESPONSIBLE FOR SOME DIABETIC TRAITS (BUT NOT DECREASED BETA-CELL MASS); (II) GESTATIONAL METABOLIC IMPAIRMENT INDUCING AN EPIGENETIC PROGRAMMING OF THE PANCREAS (DECREASED BETA-CELL NEOGENESIS AND/OR PROLIFERATION) WHICH IS TRANSMITTED TO THE NEXT GENERATION; AND (III) LOSS OF BETA-CELL DIFFERENTIATION DUE TO CHRONIC EXPOSURE TO HYPERGLYCEMIA/HYPERLIPIDEMIA, INFLAMMATORY MEDIATORS, OXIDATIVE STRESS AND TO PERTURBED ISLET MICROARCHITECTURE. 2009 15 1301 31 DEEP SEQUENCING REVEALS INCREASED DNA METHYLATION IN CHRONIC RAT EPILEPSY. EPILEPSY IS A FREQUENT NEUROLOGICAL DISORDER, ALTHOUGH ONSET AND PROGRESSION OF SEIZURES REMAIN DIFFICULT TO PREDICT IN AFFECTED PATIENTS, IRRESPECTIVE OF THEIR EPILEPTOGENIC CONDITION. PREVIOUS STUDIES IN ANIMAL MODELS AS WELL AS HUMAN EPILEPTIC BRAIN TISSUE REVEALED A REMARKABLY DIVERSE PATTERN OF GENE EXPRESSION IMPLICATING EPIGENETIC CHANGES TO CONTRIBUTE TO DISEASE PROGRESSION. HERE WE MAPPED FOR THE FIRST TIME GLOBAL DNA METHYLATION PATTERNS IN CHRONIC EPILEPTIC RATS AND CONTROLS. USING METHYL-CPG CAPTURE ASSOCIATED WITH MASSIVE PARALLEL SEQUENCING (METHYL-SEQ) WE REPORT THE GENOMIC METHYLATION SIGNATURE OF THE CHRONIC EPILEPTIC STATE. WE OBSERVED A PREDOMINANT INCREASE, RATHER THAN LOSS OF DNA METHYLATION IN CHRONIC RAT EPILEPSY. ABERRANT METHYLATION PATTERNS WERE INVERSELY CORRELATED WITH GENE EXPRESSION CHANGES USING MRNA SEQUENCING FROM SAME ANIMALS AND TISSUE SPECIMENS. ADMINISTRATION OF A KETOGENIC, HIGH-FAT, LOW-CARBOHYDRATE DIET ATTENUATED SEIZURE PROGRESSION AND AMELIORATED DNA METHYLATION MEDIATED CHANGES IN GENE EXPRESSION. THIS IS THE FIRST REPORT OF UNSUPERVISED CLUSTERING OF AN EPIGENETIC MARK BEING USED IN EPILEPSY RESEARCH TO SEPARATE EPILEPTIC FROM NON-EPILEPTIC ANIMALS AS WELL AS FROM ANIMALS RECEIVING ANTI-CONVULSIVE DIETARY TREATMENT. WE FURTHER DISCUSS THE POTENTIAL IMPACT OF EPIGENETIC CHANGES AS A PATHOGENIC MECHANISM OF EPILEPTOGENESIS. 2013 16 1302 24 DEFECTIVE FUNCTIONAL BETA-CELL MASS AND TYPE 2 DIABETES IN THE GOTO-KAKIZAKI RAT MODEL. INCREASING EVIDENCE INDICATES THAT DECREASED FUNCTIONAL BETA-CELL MASS IS THE HALLMARK OF TYPE 2 DIABETES MELLITUS. THEREFORE, THE DEBATE FOCUSES ON THE POSSIBLE MECHANISMS RESPONSIBLE FOR ABNORMAL ISLET MICROENVIRONMENT, DECREASED BETA-CELL NUMBER, IMPAIRED BETA-CELL FUNCTION AND THEIR MULTIFACTORIAL ETIOLOGIES. THE INFORMATION AVAILABLE ON THE GOTO-KAKIZAKI/PAR RAT LINE, ONE OF THE BEST CHARACTERIZED ANIMAL MODELS OF SPONTANEOUS TYPE 2 DIABETES MELLITUS, ARE REVIEWED IN SUCH A PERSPECTIVE. WE PROPOSE THAT THE DEFECTIVE BETA-CELL MASS AND FUNCTION IN THE GOTO-KAKIZAKI/PAR MODEL REFLECT THE COMPLEX INTERACTIONS OF MULTIPLE PATHOGENIC PLAYERS, INCLUDING SEVERAL INDEPENDENT LOCI CONTAINING GENES RESPONSIBLE FOR SOME DIABETIC TRAITS (BUT NOT DECREASED BETA-CELL MASS), GESTATIONAL METABOLIC IMPAIRMENT INDUCING AN EPIGENETIC PROGRAMMING OF THE PANCREAS (DECREASED BETA-CELL NEOGENESIS), WHICH IS TRANSMITTED TO THE NEXT GENERATION, AND LOSS OF BETA-CELL DIFFERENTIATION DUE TO CHRONIC EXPOSURE TO HYPERGLYCEMIA, INFLAMMATORY MEDIATORS, OXIDATIVE STRESS AND PERTURBED ISLET MICROARCHITECTURE. 2007 17 2116 40 EPIGENETIC HISTONE DEACETYLATION INHIBITION PREVENTS THE DEVELOPMENT AND PERSISTENCE OF TEMPORAL LOBE EPILEPSY. EPILEPSY IS A CHRONIC BRAIN DISEASE CHARACTERIZED BY REPEATED UNPROVOKED SEIZURES. CURRENTLY, NO DRUG THERAPY EXISTS FOR CURING EPILEPSY OR DISEASE MODIFICATION IN PEOPLE AT RISK. DESPITE SEVERAL EMERGING MECHANISMS, THERE HAVE BEEN FEW STUDIES OF EPIGENETIC SIGNALING IN EPILEPTOGENESIS, THE PROCESS WHEREBY A NORMAL BRAIN BECOMES PROGRESSIVELY EPILEPTIC BECAUSE OF PRECIPITATING FACTORS. HERE, WE REPORT A NOVEL ROLE OF HISTONE DEACETYLATION AS A CRITICAL EPIGENETIC MECHANISM IN EPILEPTOGENESIS. EXPERIMENTS WERE CONDUCTED USING THE HISTONE DEACETYLASE (HDAC) INHIBITOR SODIUM BUTYRATE IN THE HIPPOCAMPUS KINDLING MODEL OF TEMPORAL LOBE EPILEPSY (TLE), A CLASSIC MODEL HEAVILY USED TO APPROVE DRUGS FOR TREATMENT OF EPILEPSY. DAILY TREATMENT WITH BUTYRATE SIGNIFICANTLY INHIBITED HDAC ACTIVITY AND RETARDED THE DEVELOPMENT OF LIMBIC EPILEPTOGENESIS WITHOUT AFFECTING AFTER-DISCHARGE SIGNAL. HDAC INHIBITION MARKEDLY IMPAIRED THE PERSISTENCE OF SEIZURE EXPRESSION MANY WEEKS AFTER EPILEPSY DEVELOPMENT. MOREOVER, SUBCHRONIC HDAC INHIBITION FOR 2 WEEKS RESULTED IN A STRIKING RETARDATION OF EPILEPTOGENESIS. HDAC INHIBITION, UNEXPECTEDLY, ALSO SHOWED ERASURE OF THE EPILEPTOGENIC STATE IN EPILEPTIC ANIMALS. FINALLY, BUTYRATE-TREATED ANIMALS EXHIBITED A POWERFUL REDUCTION IN MOSSY FIBER SPROUTING, A MORPHOLOGIC INDEX OF EPILEPTOGENESIS. TOGETHER THESE RESULTS UNDERSCORE THAT HDAC INHIBITION PREVENTS THE DEVELOPMENT OF TLE, INDICATING HDAC'S CRITICAL SIGNALING ROLE IN EPILEPTOGENESIS. THESE FINDINGS, THEREFORE, ENVISAGE A UNIQUE NOVEL THERAPY FOR PREVENTING OR CURING EPILEPSY BY TARGETING THE EPIGENETIC HDAC PATHWAY. 2018 18 3785 24 INTERGENERATIONAL EFFECTS OF PRE-PREGNANCY CHRONIC LIPOPOLYSACCHARIDE FROM PORPHYROMONAS GINGIVALIS ON THE LEARNING, MEMORY AND SEIZURE SUSCEPTIBILITY OF OFFSPRING. OBJECTIVE: THE AIM OF THIS STUDY WAS TO INVESTIGATE THE EFFECTS OF PRE-PREGNANCY CHRONIC EXPOSURE TO PORPHYROMONAS GINGIVALIS LPS (PG LPS) ON THE LEARNING, MEMORY, AND SEIZURE SUSCEPTIBILITY OF THE OFFSPRING. DESIGN: TO ACHIEVE PERIODONTITIS, PG LPS (5 MUG/KG) WAS INJECTED INTO THE GINGIVAL OF FIVE FEMALE RATS EVERY 48 H FOR THREE WEEKS. FIVE CONTROL FEMALE RATS RECEIVED SALINE (0.9 %) AND FIVE FEMALE WERE KEPT INTACT. THE CONCENTRATIONS OF TNF-ALPHA AND IL-6 WERE MEASURED IN THE BLOOD SAMPLES. ONE WEEK AFTER THE FINAL INJECTION, FEMALES WERE MATED WITH INTACT MALES. FOLLOWING BIRTH AND WEANING, TWO MALE AND TWO FEMALE OFFSPRING WERE RANDOMLY SELECTED FROM EACH MOTHER, AND NEW GROUPS OF MALE AND FEMALE OFFSPRING WERE DEFINED FOR BEHAVIORAL ASSESSMENTS. MORRIS WATER MAZE WAS USED TO EVALUATE SPATIAL MEMORY, SHUTTLE BOX WAS USED TO INVESTIGATE AVOIDANCE MEMORY AND A PENTYLENETETRAZOLE-INDUCED SEIZURE WAS USED TO EVALUATE SEIZURE SUSCEPTIBILITY IN THE OFFSPRING. RESULTS: SPATIAL LEARNING AND AVOIDANCE MEMORY SIGNIFICANTLY DECREASED IN BOTH MALE AND FEMALE OFFSPRING OF PG LPS-EXPOSED FEMALE RATS, COMPARED TO THE CONTROL OFFSPRING. LATENCY TO REACH SEIZURE STAGES 1 AND 2 SIGNIFICANTLY INCREASED IN THE MALE OFFSPRING, BUT NOT THE FEMALE OFFSPRING OF PG LPS-EXPOSED FEMALE, COMPARED TO THE CONTROL OFFSPRING. HOWEVER, NO SIGNIFICANT DIFFERENCE WAS FOUND IN LATENCY TO REACH STAGES 3-5. CONCLUSION: PRE-PREGNANCY EXPOSURE TO PG LPS COULD AFFECT SOME BEHAVIORAL FUNCTIONS IN BOTH MALE AND FEMALE OFFSPRING INTERGENERATIONALLY. 2021 19 6559 29 TRANSGENERATIONAL INFLUENCE OF PARENTAL MORPHINE EXPOSURE ON PAIN PERCEPTION, ANXIETY-LIKE BEHAVIOR AND PASSIVE AVOIDANCE MEMORY AMONG MALE AND FEMALE OFFSPRING OF WISTAR RATS. ACCUMULATING EVIDENCE SUGGESTS THAT EPIGENETIC MECHANISMS PLAY AN IMPORTANT ROLE IN THE FORMATION AND MAINTENANCE OF MEMORY WITHIN THE BRAIN. MOREOVER, THE EFFECT OF PARENTAL DRUG-EXPOSURE BEFORE GESTATION ON BEHAVIORAL STATE OF OFFSPRING HAS BEEN LITTLE STUDIED. THE MAIN OBJECTIVE OF THE CURRENT STUDY IS TO EVALUATE THE EFFECT OF PARENTAL MORPHINE EXPOSURE ON AVOIDANCE MEMORY, MORPHINE PREFERENCE AND ANXIETY-LIKE BEHAVIOR OF OFFSPRING. THE TOTAL OF 32 MALES AND 32 FEMALES WERE USED FOR MATING. THE ANIMALS WERE TREATED WITH MORPHINE. THE OFFSPRING ACCORDING TO THEIR PARENTAL MORPHINE TREATMENT WAS DIVIDED INTO FOUR GROUPS (N=16) INCLUDING PATERNALLY TREATED, MATERNALLY TREATED, BOTH OF PARENTS TREATED AND NAIVE ANIMALS. THE PAIN PERCEPTION, ANXIETY-LIKE BEHAVIOR, AND AVOIDANCE MEMORY WERE EVALUATED IN THE OFFSPRING. IN THE CURRENT STUDY, THE TOTAL OF 256 OFFSPRING WAS USED FOR THE EXPERIMENTS (4 TASKS X 4 GROUPS OF OFFSPRING X 8 FEMALE OFFSPRING X 8 MALE OFFSPRING). THE FINDING REVEALED THAT THE AVOIDANCE MEMORY AND VISCERAL PAIN WERE REDUCED SIGNIFICANTLY IN MALE AND FEMALE OFFSPRING WITH AT LEAST ONE MORPHINE-TREATED PARENT. MOREOVER, ANXIETY-LIKE BEHAVIOR WAS REDUCED SIGNIFICANTLY IN THE MALE OFFSPRING WITH AT LEAST ONE MORPHINE-TREATED PARENT. WHILE ANXIETY-LIKE BEHAVIOR WAS INCREASED SIGNIFICANTLY IN FEMALE OFFSPRING THAT WERE TREATED BY MORPHINE EITHER MATERNALLY OR BOTH OF PARENTS. THE DATA REVEALED THAT THE ENDOGENOUS OPIOID SYSTEM MAY BE ALTERED IN THE OFFSPRING OF MORPHINE-TREATED PARENT(S), AND EPIGENETIC ROLE COULD BE IMPORTANT. HOWEVER, ANALYSIS OF VARIANCE SIGNIFIED THE IMPORTANT ROLE OF MATERNAL INHERITANCE. 2019 20 6418 36 THE TEMPORAL EXPRESSION OF CIRCULATING MICRORNAS AFTER ACUTE EXPERIMENTAL PAIN IN HUMANS. BACKGROUND: MICRORNAS (MIRNAS) CAN MODULATE SEVERAL BIOLOGICAL SYSTEMS, INCLUDING THE PAIN SYSTEM. THIS STUDY AIMED TO EVALUATE THE TEMPORAL EXPRESSION OF CIRCULATING MIRNAS IN THE PLASMA OF HEALTHY VOLUNTEERS AS A MARKER FOR EPIGENETIC CHANGES BEFORE AND AFTER AN ACUTE, EXPERIMENTAL, PAIN PROVOCATION BY INTRAMUSCULAR HYPERTONIC SALINE INJECTION. METHODS: TWENTY VOLUNTEERS WERE RANDOMLY ALLOCATED INTO TWO GROUPS AND RECEIVED EITHER HYPERTONIC (PAIN) OR ISOTONIC (CONTROL) SALINE INJECTION IN THE FIRST DORSAL INTEROSSEOUS MUSCLE OF THEIR DOMINANT HAND. PAIN INTENSITY WAS CONTINUOUSLY RECORDED FOR 20 MINUTES AFTER INJECTION ON A VAS SCALE FROM 0 TO 100 (0 INDICATES NO PAIN AND 100 THE WORST IMAGINABLE PAIN). BLOOD SAMPLES WERE TAKEN AT BASELINE, 30 MINUTES, 3 HOURS, AND 24 HOURS POST-INJECTION, AND PLASMA WAS SEPARATED. MIRNA EXTRACTS WERE USED FOR RNA SEQUENCING WITH THE ILLUMINA NEXTSEQ PLATFORM. MIRNA TRANSCRIPTS WERE COMPARED BETWEEN THE PAIN AND THE NO-PAIN, CONTROL GROUP AT EVERY TIME POINT. SIGNIFICANT DIFFERENCES WERE CONSIDERED WHEN FOLDS WERE >2 AND THE FALSE DISCOVERY RATE WAS P < 0.05. RESULTS: AFTER 30 MINUTES, 4 MIRNAS WERE SIGNIFICANTLY ALTERED IN THE PAIN GROUP COMPARED TO CONTROLS, WHICH INCREASED TO 24 AFTER 3 HOURS AND TO 42 AFTER 24 HOURS FROM BASELINE (P < 0.0001). TWO MIRNAS WERE CONSISTENTLY UPREGULATED THROUGHOUT THE EXPERIMENT. ENRICHMENT ANALYSIS SHOWED SIGNIFICANT MIRNAS INVOLVED IN BRAIN PERCEPTION OF PAIN, BRAIN SIGNALLING AND RESPONSE TO STIMULI. CONCLUSIONS: THIS EXPLORATORY STUDY IS THE FIRST TO REPORT ON THE TEMPORAL EXPRESSION OF CIRCULATING MIRNAS AFTER AN ACUTE, HUMAN EXPERIMENTAL MUSCLE PAIN MODEL. SIGNIFICANCE: THIS EXPLORATORY STUDY EVALUATED THE TEMPORAL PROFILE OF CIRCULATING MIRNAS IN THE PLASMA OF HEALTHY SUBJECTS AFTER ACUTE EXPERIMENTAL PAIN. SEVERAL MIRNAS WERE ALTERED IN SUBJECTS AT THE TIMES OF FOLLOW-UP AFTER THE ACUTE PAIN MODEL WHEN COMPARED TO CONTROLS. MIRNAS PREVIOUSLY ASSOCIATED WITH PAIN PROCESSES WERE ALTERED IN THE PAIN GROUP. OUR RESULTS, BY SHOWING THE FAST AND PROLONGED MODIFICATIONS OF MIRNA ELICITED BY THE ACUTE EXPERIMENTAL PAIN MODEL, ADD NEW PERSPECTIVES TO THE TOPIC OF EPIGENETICS AND PAIN. 2023