1 5404 127 REGENERATIVE INTESTINAL STEM CELLS INDUCED BY ACUTE AND CHRONIC INJURY: THE SAVING GRACE OF THE EPITHELIUM? THE INTESTINAL EPITHELIUM IS REPLENISHED EVERY 3-4 DAYS THROUGH AN ORDERLY PROCESS THAT MAINTAINS IMPORTANT SECRETORY AND ABSORPTIVE FUNCTIONS WHILE PRESERVING A CONTINUOUS MUCOSAL BARRIER. INTESTINAL EPITHELIAL CELLS (IECS) DERIVE FROM A STABLE POPULATION OF INTESTINAL STEM CELLS (ISCS) THAT RESIDE IN THE BASAL CRYPTS. WHEN INTESTINAL INJURY REACHES THE CRYPTS AND DAMAGES IECS, A MECHANISM TO REPLACE THEM IS NEEDED. RECENT RESEARCH HAS HIGHLIGHTED THE EXISTENCE OF DISTINCT POPULATIONS OF ACUTE AND CHRONIC DAMAGE-ASSOCIATED ISCS AND THEIR ROLES IN MAINTAINING HOMEOSTASIS IN SEVERAL INTESTINAL PERTURBATION MODELS. WHAT REMAINS UNKNOWN IS HOW THE DAMAGE-ASSOCIATED REGENERATIVE ISC POPULATION FUNCTIONS IN THE SETTING OF CHRONIC INFLAMMATION, AS OPPOSED TO ACUTE INJURY. WHAT LONG-TERM CONSEQUENCES RESULT FROM PERSISTENT INFLAMMATION AND OTHER CELLULAR INSULTS TO THE ISC NICHE? WHAT PARTICULAR "REGENERATIVE" CELL TYPES PROVIDE THE MOST EFFICACIOUS RESTORATIVE PROPERTIES? WHICH DIFFERENTIATED IECS MAINTAIN THE ABILITY TO DE-DIFFERENTIATE AND RESTORE THE ISC NICHE? THIS REVIEW WILL COVER THE LATEST RESEARCH ON DAMAGE-ASSOCIATED REGENERATIVE ISCS AND EPIGENETIC FACTORS THAT DETERMINE ISC FATE, AS WELL AS PROVIDE OPINIONS ON FUTURE STUDIES THAT NEED TO BE UNDERTAKEN TO UNDERSTAND THE REPERCUSSIONS OF THE EMERGENCE OF THESE CELLS, THEIR CONTRIBUTION TO RELAPSES IN INFLAMMATORY BOWEL DISEASE, AND THEIR POTENTIAL USE IN THERAPEUTICS FOR CHRONIC INTESTINAL DISEASES. 2020 2 1378 32 DEVELOPMENTAL PROGRAMS ARE KEPT ALIVE DURING ADULTHOOD BY STEM CELLS: THE AGING ASPECT. STEM CELLS ARE FUNDAMENTAL FOR LIFE-LONG PRESERVATION OF CELLULAR SOMATIC MAINTENANCE. TISSUE-BORNE STEM CELLS REPLENISH WORN-OUT CRITICAL ELEMENTS. PROVIDED THEY REMAIN FIT OVER LIFETIME, ENDURING STEM CELL ACTIVITIES AVERT THE EMERGENCE OF AGE-ASSOCIATED CHRONIC DEGENERATIVE DISEASES AND PATHOLOGIES. ALTHOUGH EXPERIMENTALLY STILL UNCLEAR, IT IS ASSUMED THAT STEM CELLS RESIDE IN PROTECTED NICHES. FRESHLY ISOLATED MESENCHYMAL STEM CELLS EXHIBIT DONOR-SPECIFIC ABERRATIONS, WHICH CANNOT SOLELY BE ASCRIBED TO DIFFERENCES IN GENETIC BACKGROUND. BESIDES INEVITABLY ACCUMULATING INTRINSIC MODIFICATIONS, THE SYSTEMIC ENVIRONMENT ALSO IMPACTS ON BASIC PROPERTIES OF MESENCHYMAL STEM CELLS SUCH AS THEIR INHERENT MULTI-LINEAGE DIFFERENTIATION POTENTIAL. CHRONIC SYSTEMIC ABERRATIONS OVER TIME COMPRISE UNWHOLESOME INFLUENCES, IN PARTICULAR IN TERMS OF REGENERATION AND REPAIR WHEN STEM CELLS RECAPITULATE DISTINCT DEVELOPMENTAL PROGRAMS. DURING OR THEREAFTER, STEM CELLS CAN DIVERSIFY EITHER BECAUSE OF INSUFFICIENTLY SILENCING ACTIVATED BUILDING CYCLES, OR BY ACQUIRING EPIGENETIC DEVIATIONS. 2013 3 5816 32 STRESS AND STEM CELLS. THE UNIQUE PROPERTIES AND FUNCTIONS OF STEM CELLS MAKE THEM PARTICULARLY SUSCEPTIBLE TO STRESSES AND ALSO LEAD TO THEIR REGULATION BY STRESS. STEM CELL DIVISION MUST RESPOND TO THE DEMAND TO REPLENISH CELLS DURING NORMAL TISSUE TURNOVER AS WELL AS IN RESPONSE TO DAMAGE. OXIDATIVE STRESS, MECHANICAL STRESS, GROWTH FACTORS, AND CYTOKINES SIGNAL STEM CELL DIVISION AND DIFFERENTIATION. MANY OF THE CONSERVED PATHWAYS REGULATING STEM CELL SELF-RENEWAL AND DIFFERENTIATION ARE ALSO STRESS-RESPONSE PATHWAYS. THE LONG LIFE SPAN AND DIVISION POTENTIAL OF STEM CELLS CREATE A PROPENSITY FOR TRANSFORMATION (CANCER) AND SPECIFIC STRESS RESPONSES SUCH AS APOPTOSIS AND SENESCENCE ACT AS ANTITUMOR MECHANISMS. QUIESCENCE REGULATED BY CDK INHIBITORS AND A HYPOXIC NICHE REGULATED BY FOXO TRANSCRIPTION FACTOR FUNCTION TO REDUCE STRESS FOR SEVERAL TYPES OF STEM CELLS TO FACILITATE LONG-TERM MAINTENANCE. AGING IS A PARTICULARLY RELEVANT STRESS FOR STEM CELLS, BECAUSE REPEATED DEMANDS ON STEM CELL FUNCTION OVER THE LIFE SPAN CAN HAVE CUMULATIVE CELL-AUTONOMOUS EFFECTS INCLUDING EPIGENETIC DYSREGULATION, MUTATIONS, AND TELOMERE EROSION. IN ADDITION, AGING OF THE ORGANISM IMPAIRS FUNCTION OF THE STEM CELL NICHE AND SYSTEMIC SIGNALS, INCLUDING CHRONIC INFLAMMATION AND OXIDATIVE STRESS. 2012 4 5428 33 REGULATION OF STRESS-INDUCED HEMATOPOIESIS. PURPOSE OF REVIEW: THE HEMATOPOIETIC COMPARTMENT IS TASKED WITH THE ESTABLISHMENT AND MAINTENANCE OF THE ENTIRE BLOOD PROGRAM IN STEADY-STATE AND IN RESPONSE TO STRESS. KEY TO THIS PROCESS ARE HEMATOPOIETIC STEM CELLS (HSCS), WHICH POSSESS THE UNIQUE ABILITY TO SELF-RENEW AND DIFFERENTIATE TO REPLENISH BLOOD CELLS THROUGHOUT AN ORGANISM'S LIFETIME. THOUGH TIGHTLY REGULATED, THE HEMATOPOIETIC SYSTEM IS VULNERABLE TO BOTH INTRINSIC AND EXTRINSIC FACTORS THAT INFLUENCE HEMATOPOIETIC STEM AND PROGENITOR CELL (HSPC) FATE. HERE, WE REVIEW RECENT ADVANCES IN OUR UNDERSTANDING OF HEMATOPOIETIC REGULATION UNDER STRESS CONDITIONS SUCH AS INFLAMMATION, AGING, MITOCHONDRIAL DEFECTS, AND DAMAGE TO DNA OR ENDOPLASMIC RETICULUM. RECENT FINDINGS: RECENT STUDIES HAVE ILLUSTRATED THE VAST MECHANISMS INVOLVED IN REGULATING STRESS-INDUCED HEMATOPOIESIS, INCLUDING CYTOKINE-MEDIATED LINEAGE BIAS, GENE SIGNATURE CHANGES IN AGED HSCS ASSOCIATED WITH CHRONIC INFLAMMATION, THE IMPACT OF CLONAL HEMATOPOIESIS AND STRESS TOLERANCE, CHARACTERIZATION OF THE HSPC RESPONSE TO ENDOPLASMIC RETICULUM STRESS AND OF SEVERAL EPIGENETIC REGULATORS THAT INFLUENCE HSPC RESPONSE TO CELL CYCLE STRESS. SUMMARY: SEVERAL KEY RECENT FINDINGS HAVE DEEPENED OUR UNDERSTANDING OF STRESS HEMATOPOIESIS. THESE STUDIES WILL ADVANCE OUR ABILITIES TO REDUCE THE IMPACT OF STRESS IN DISEASE AND AGING THROUGH CLINICAL INTERVENTIONS TO TREAT STRESS-RELATED OUTCOMES. 2020 5 1759 23 EARLY PRECURSOR T CELLS ESTABLISH AND PROPAGATE T CELL EXHAUSTION IN CHRONIC INFECTION. CD8(+) T CELLS RESPONDING TO CHRONIC INFECTIONS OR TUMORS ACQUIRE AN 'EXHAUSTED' STATE ASSOCIATED WITH ELEVATED EXPRESSION OF INHIBITORY RECEPTORS, INCLUDING PD-1, AND IMPAIRED CYTOKINE PRODUCTION. EXHAUSTED T CELLS ARE CONTINUOUSLY REPLENISHED BY T CELLS WITH PRECURSOR CHARACTERISTICS THAT SELF-RENEW AND DEPEND ON THE TRANSCRIPTION FACTOR TCF1; HOWEVER, THEIR DEVELOPMENTAL REQUIREMENTS ARE POORLY UNDERSTOOD. IN THE PRESENT STUDY, WE DEMONSTRATE THAT HIGH ANTIGEN LOAD PROMOTED THE DIFFERENTIATION OF PRECURSOR T CELLS, WHICH ACQUIRED HALLMARKS OF EXHAUSTION WITHIN DAYS OF INFECTION, WHEREAS EARLY EFFECTOR CELLS RETAINED POLYFUNCTIONAL FEATURES. EARLY PRECURSOR T CELLS SHOWED EPIGENETIC IMPRINTING CHARACTERISTIC OF T CELL RECEPTOR-DEPENDENT TRANSCRIPTION FACTOR BINDING AND WERE RESTRICTED TO THE GENERATION OF CELLS DISPLAYING EXHAUSTION CHARACTERISTICS. TRANSCRIPTION FACTORS BACH2 AND BATF WERE KEY REGULATORS WITH OPPOSING FUNCTIONS IN THE GENERATION OF EARLY PRECURSOR T CELLS. OVERALL, WE DEMONSTRATE THAT EXHAUSTION MANIFESTS FIRST IN TCF1(+) PRECURSOR T CELLS AND IS PROPAGATED SUBSEQUENTLY TO THE POOL OF ANTIGEN-SPECIFIC T CELLS. 2020 6 3544 25 IMMUNOMETABOLIC CONTROL OF TRAINED IMMUNITY. INNATE IMMUNE CELLS CAN ADOPT LONG-TERM INFLAMMATORY PHENOTYPES FOLLOWING BRIEF ENCOUNTERS WITH EXOGENOUS (MICROBIAL) OR ENDOGENOUS STIMULI. THIS PHENOMENON IS NAMED TRAINED IMMUNITY AND CAN IMPROVE HOST DEFENSE AGAINST (RECURRENT) INFECTIONS. IN CONTRAST, TRAINED IMMUNITY CAN ALSO BE MALADAPTIVE IN THE CONTEXT OF CHRONIC INFLAMMATORY DISORDERS, SUCH AS ATHEROSCLEROSIS. KEY TO FUTURE THERAPEUTIC EXPLOITATION OF THIS MECHANISM IS THOROUGH KNOWLEDGE OF THE MECHANISMS DRIVING TRAINED IMMUNITY, WHICH CAN BE USED AS PHARMACOLOGICAL TARGETS. THESE MECHANISMS INCLUDE PROFOUND CHANGES IN INTRACELLULAR METABOLISM, WHICH ARE CLOSELY INTERTWINED WITH EPIGENETIC REPROGRAMMING AT THE LEVEL OF HISTONE MODIFICATIONS. GLYCOLYSIS, GLUTAMINE REPLENISHMENT OF THE TRICARBOXYLIC ACID CYCLE WITH ACCUMULATION OF FUMARATE, AND THE MEVALONATE PATHWAY HAVE ALL BEEN IDENTIFIED AS CRITICAL PATHWAYS FOR TRAINED IMMUNITY IN MONOCYTES AND MACROPHAGES. IN THIS REVIEW, WE PROVIDE A STATE-OF-THE-ART OVERVIEW OF HOW THESE METABOLIC PATHWAYS INTERACT WITH EPIGENETIC PROGRAMS TO DEVELOP TRAINED IMMUNITY. 2021 7 2894 40 GASTRIC CANCER AS A STEM-CELL DISEASE: DATA AND HYPOTHESES. THE MAIN FUNCTION OF GASTRIC STEM CELLS IS TO MAINTAIN THE INTEGRITY OF THE GASTROINTESTINAL EPITHELIUM AND REPLENISH ALL THE MATURE CELL LINEAGES. IN ORDER TO ACCOMPLISH THIS, GASTRIC STEM CELLS PROLIFERATE AND SELF-RENEW, GIVING RISE TO TRANSIENT AMPLIFYING CELLS WHICH REPLACE THE CONSTANTLY RENEWING EPITHELIUM, ESPECIALLY AFTER INJURY INDUCED BY LONG-TERM INFLAMMATION. GASTRIC CANCER (GC) REMAINS THE FOURTH MOST COMMON CANCER AND THE SECOND LEADING CAUSE OF DEATH FOR CANCER IN THE WORLD. THE MOST ACCEPTED MODEL OF GASTRIC CARCINOGENESIS PROVIDES A MULTIFACTORIAL AND MULTISTEP PATHOGENESIS, INVOLVING A NUMBER OF INITIATORS AND OTHER CONTINUATOR AGENTS. HELICOBACTER PYLORI INFECTION IS RECOGNIZED AS A NECESSARY BUT INSUFFICIENT CAUSE OF GC. RECENT ADVANCES IN GASTRIC STEM CELL BIOLOGY POINT OUT TO TWO HYPOTHESES. IN THE FIRST, IT IS POSTULATED THAT RESIDENT STEM CELLS MAY, IN A CHRONICALLY INFLAMED ENVIRONMENT, AS IN THE CASE OF HELICOBACTER PYLORI-INDUCED GASTRITIS, ACCUMULATE OVER TIME A SERIES OF GENETIC AND EPIGENETIC CHANGES THAT LEAD TO THE EMERGENCE OF GC STEM CELLS. ALTERNATIVELY, THE SETTING OF CHRONIC INFLAMMATORY STRESS MAY LEAD TO LOSS OF THE INDIGENOUS GASTRIC STEM CELLS FROM THEIR NICHES, FOLLOWED BY RECRUITMENT AND ENGRAFTMENT OF BONE MARROW DERIVED STEM CELLS (BMDCS) INTO THE GASTRIC EPITHELIUM. IN THE MOUSE MODEL, INCREASING EVIDENCE SUPPORTS THE HYPOTHESIS THAT BMDCS ARE IMPORTANT CELLULAR SOURCE OF HELICOBACTER-INDUCED GC. THIS REVIEW HIGHLIGHTS DATA AND HYPOTHESES ABOUT GC AS A MODEL OF STEM-CELL DISEASE. 2014 8 5432 24 REJUVENATION OF MESENCHYMAL STEM CELLS TO AMELIORATE SKELETAL AGING. ADVANCED AGE IS A SHARED RISK FACTOR FOR MANY CHRONIC AND DEBILITATING SKELETAL DISEASES INCLUDING OSTEOPOROSIS AND PERIODONTITIS. MESENCHYMAL STEM CELLS DEVELOP VARIOUS AGING PHENOTYPES INCLUDING THE ONSET OF SENESCENCE, INTRINSIC LOSS OF REGENERATIVE POTENTIAL AND EXACERBATION OF INFLAMMATORY MICROENVIRONMENT VIA SECRETORY FACTORS. THIS REVIEW ELABORATES ON THE EMERGING CONCEPTS ON THE MOLECULAR AND EPIGENETIC MECHANISMS OF MSC SENESCENCE, SUCH AS THE ACCUMULATION OF OXIDATIVE STRESS, DNA DAMAGE AND MITOCHONDRIAL DYSFUNCTION. SENESCENT MSCS AGGRAVATE LOCAL INFLAMMATION, DISRUPT BONE REMODELING AND BONE-FAT BALANCE, THEREBY CONTRIBUTING TO THE PROGRESSION OF AGE-RELATED BONE DISEASES. VARIOUS REJUVENATION STRATEGIES TO TARGET SENESCENT MSCS COULD PRESENT A PROMISING PARADIGM TO RESTORE SKELETAL AGING. 2023 9 5632 34 SENESCENT CELLS: SASPECTED DRIVERS OF AGE-RELATED PATHOLOGIES. THE PROGRESSION OF PHYSIOLOGICAL AGEING IS DRIVEN BY INTRACELLULAR ABERRATIONS INCLUDING TELOMERE ATTRITION, GENOMIC INSTABILITY, EPIGENETIC ALTERATIONS AND LOSS OF PROTEOSTASIS. THESE IN TURN DAMAGE CELLS AND COMPROMISE THEIR FUNCTIONALITY. CELLULAR SENESCENCE, A STABLE IRREVERSIBLE CELL-CYCLE ARREST, IS ELICITED IN DAMAGED CELLS AND PREVENTS THEIR PROPAGATION IN THE ORGANISM. UNDER NORMAL CONDITIONS, SENESCENT CELLS RECRUIT THE IMMUNE SYSTEM WHICH FACILITATES THEIR REMOVAL FROM TISSUES. NEVERTHELESS, DURING AGEING, TISSUE-RESIDING SENESCENT CELLS TEND TO ACCUMULATE, AND MIGHT NEGATIVELY IMPACT THEIR MICROENVIRONMENT VIA PROFOUND SECRETORY PHENOTYPE WITH PRO-INFLAMMATORY CHARACTERISTICS, TERMED SENESCENCE-ASSOCIATED SECRETORY PHENOTYPE (SASP). INDEED, SENESCENT CELLS ARE MOSTLY ABUNDANT AT SITES OF AGE-RELATED PATHOLOGIES, INCLUDING DEGENERATIVE DISORDERS AND MALIGNANCIES. INTERESTINGLY, STUDIES ON PROGEROID MICE INDICATE THAT SELECTIVE ELIMINATION OF SENESCENT CELLS CAN DELAY AGE-RELATED DETERIORATION. THIS SUGGESTS THAT CHRONIC INFLAMMATION INDUCED BY SENESCENT CELLS MIGHT BE A MAIN DRIVER OF THESE PATHOLOGIES. IMPORTANTLY, SENESCENT CELLS ACCUMULATE AS A RESULT OF DEFICIENT IMMUNE SURVEILLANCE, AND THEIR REMOVAL IS INCREASED UPON THE USE OF IMMUNE STIMULATORY AGENTS. INSIGHTS INTO MECHANISMS OF SENESCENCE SURVEILLANCE COULD BE COMBINED WITH CURRENT APPROACHES FOR CANCER IMMUNOTHERAPY TO PROPOSE NEW PREVENTIVE AND THERAPEUTIC STRATEGIES FOR AGE-RELATED DISEASES. 2014 10 2145 24 EPIGENETIC MAINTENANCE OF ACQUIRED GENE EXPRESSION PROGRAMS DURING MEMORY CD8 T CELL HOMEOSTASIS. MEMORY CD8 T CELLS HAVE A UNIQUE ABILITY TO PROVIDE LIFELONG IMMUNITY AGAINST PATHOGENS CONTAINING THEIR COGNATE EPITOPE. BECAUSE OF THEIR ABILITY TO PROVIDE LIFELONG PROTECTION, THE GENERATION OF MEMORY T CELLS IS NOW A MAJOR FOCUS FOR CURRENT VACCINATION OR ADOPTIVE CELL THERAPY APPROACHES TO TREAT CHRONIC VIRAL INFECTIONS AND CANCER. IT IS NOW CLEAR THAT MAINTENANCE OF MEMORY CD8 T CELLS OCCURS THROUGH A PROCESS OF ANTIGEN-INDEPENDENT HOMEOSTATIC PROLIFERATION, WHICH IS REGULATED IN PART BY THE GAMMA CHAIN CYTOKINES IL-7 AND IL-15. HERE, WE WILL DESCRIBE THE ROLE OF THESE CYTOKINES IN THE SURVIVAL AND SELF-RENEWAL OF MEMORY CD8 T CELLS. FURTHER, WE WILL DESCRIBE THE ROLE OF EPIGENETICS IN THE MAINTENANCE OF ACQUIRED FUNCTIONS AMONG MEMORY CD8 T CELLS DURING HOMEOSTATIC PROLIFERATION. 2018 11 4196 25 METABOLIC PLASTICITY AND REGULATION OF T CELL EXHAUSTION. THE METABOLIC REPROGRAMMING DURING T CELL ACTIVATION AND DIFFERENTIATION AFFECTS T CELL FATE AND IMMUNE RESPONSES. CELL METABOLISM MAY SERVE AS THE DRIVING FORCE THAT INDUCES EPIGENETIC MODIFICATIONS, CONTRIBUTING TO REGULATING T CELL DIFFERENTIATION. PERSISTENT PATHOGEN INFECTION LEADS TO T CELL EXHAUSTION, WHICH IS COMPOSED OF TWO MAIN SUBSETS AND WITH DISTINCT METABOLIC CHARACTERISTICS. THE PROGENITOR EXHAUSTED T CELLS UTILIZE MITOCHONDRIAL FATTY ACID OXIDATION (FAO) AND OXIDATIVE PHOSPHORYLATION (OXPHOS) FOR ENERGY, WHILE TERMINALLY EXHAUSTED T CELLS MAINLY RELY ON GLYCOLYTIC METABOLISM WITH IMPAIRED GLYCOLYSIS AND OXPHOS. HERE, WE COMPILED THE LATEST RESEARCH ON HOW T CELL METABOLISM DEFINES DIFFERENTIATION, FOCUSING ON T CELL EXHAUSTION DURING CHRONIC INFECTIONS. IN ADDITION, METABOLIC-RELATED FACTORS INCLUDING ANTIGEN STIMULATION SIGNALS STRENGTH, CYTOKINES AND EPIGENETICS AFFECTING T CELL EXHAUSTION WERE ALSO REVIEWED. FURTHERMORE, THE INTERVENTION STRATEGIES ON METABOLISM AND EPIGENETICS TO REVERSE T CELL EXHAUSTION WERE DISCUSSED IN DETAIL, WHICH MAY CONTRIBUTE TO ACHIEVING THE GOAL OF PREVENTION AND TREATMENT OF T CELL EXHAUSTION. 2022 12 6376 28 THE ROLE OF NEUTROPHILS IN TRAINED IMMUNITY. THE PRINCIPLE OF TRAINED IMMUNITY REPRESENTS INNATE IMMUNE MEMORY DUE TO SUSTAINED, MAINLY EPIGENETIC, CHANGES TRIGGERED BY ENDOGENOUS OR EXOGENOUS STIMULI IN BONE MARROW (BM) PROGENITORS (CENTRAL TRAINED IMMUNITY) AND THEIR INNATE IMMUNE CELL PROGENY, THEREBY TRIGGERING ELEVATED RESPONSIVENESS AGAINST SECONDARY STIMULI. BM PROGENITORS CAN RESPOND TO MICROBIAL AND STERILE SIGNALS, THEREBY POSSIBLY ACQUIRING TRAINED IMMUNITY-MEDIATED LONG-LASTING ALTERATIONS THAT MAY SHAPE THE FATE AND FUNCTION OF THEIR PROGENY, FOR EXAMPLE, NEUTROPHILS. NEUTROPHILS, THE MOST ABUNDANT INNATE IMMUNE CELL POPULATION, ARE PRODUCED IN THE BM FROM COMMITTED PROGENITOR CELLS IN A PROCESS DESIGNATED GRANULOPOIESIS. NEUTROPHILS ARE THE FIRST RESPONDERS AGAINST INFECTIOUS OR INFLAMMATORY CHALLENGES AND HAVE VERSATILE FUNCTIONS IN IMMUNITY. TOGETHER WITH OTHER INNATE IMMUNE CELLS, NEUTROPHILS ARE EFFECTORS OF PERIPHERAL TRAINED IMMUNITY. HOWEVER, GIVEN THE SHORT LIFETIME OF NEUTROPHILS, THEIR ABILITY TO ACQUIRE IMMUNOLOGICAL MEMORY MAY LIE IN THE CENTRAL TRAINING OF THEIR BM PROGENITORS RESULTING IN GENERATION OF REPROGRAMMED, THAT IS, "TRAINED", NEUTROPHILS. ALTHOUGH TRAINED IMMUNITY MAY HAVE BENEFICIAL EFFECTS IN INFECTION OR CANCER, IT MAY ALSO MEDIATE DETRIMENTAL OUTCOMES IN CHRONIC INFLAMMATION. HERE, WE REVIEW THE EMERGING RESEARCH AREA OF TRAINED IMMUNITY WITH A PARTICULAR EMPHASIS ON THE ROLE OF NEUTROPHILS AND GRANULOPOIESIS. 2023 13 3702 29 INFLAMMATORY SIGNALING PATHWAYS IN PRELEUKEMIC AND LEUKEMIC STEM CELLS. HEMATOPOIETIC STEM CELLS (HSCS) ARE A RARE SUBSET OF BONE MARROW CELLS THAT USUALLY EXIST IN A QUIESCENT STATE, ONLY ENTERING THE CELL CYCLE TO REPLENISH THE BLOOD COMPARTMENT, THEREBY LIMITING THE POTENTIAL FOR ERRORS IN REPLICATION. INFLAMMATORY SIGNALS THAT ARE RELEASED IN RESPONSE TO ENVIRONMENTAL STRESSORS, SUCH AS INFECTION, TRIGGER ACTIVE CYCLING OF HSCS. THESE INFLAMMATORY SIGNALS CAN ALSO DIRECTLY INDUCE HSCS TO RELEASE CYTOKINES INTO THE BONE MARROW ENVIRONMENT, PROMOTING MYELOID DIFFERENTIATION. AFTER STRESS MYELOPOIESIS IS TRIGGERED, HSCS REQUIRE INTRACELLULAR SIGNALING PROGRAMS TO DEACTIVATE THIS RESPONSE AND RETURN TO STEADY STATE. PROLONGED OR EXCESSIVE EXPOSURE TO INFLAMMATORY CYTOKINES, SUCH AS IN PROLONGED INFECTION OR IN CHRONIC RHEUMATOLOGIC CONDITIONS, CAN LEAD TO CONTINUED HSC CYCLING AND EVENTUAL HSC LOSS. THIS PROMOTES BONE MARROW FAILURE, AND CAN PRECIPITATE PRELEUKEMIC STATES OR LEUKEMIA THROUGH THE ACQUISITION OF GENETIC AND EPIGENETIC CHANGES IN HSCS. THIS CAN OCCUR THROUGH THE INITIATION OF CLONAL HEMATOPOIESIS, FOLLOWED BY THE EMERGENCE PRELEUKEMIC STEM CELLS (PRE-LSCS). IN THIS REVIEW, WE DESCRIBE THE ROLES OF MULTIPLE INFLAMMATORY SIGNALING PATHWAYS IN THE GENERATION OF PRE-LSCS AND IN PROGRESSION TO MYELODYSPLASTIC SYNDROME (MDS), MYELOPROLIFERATIVE NEOPLASMS, AND ACUTE MYELOID LEUKEMIA (AML). IN AML, ACTIVATION OF SOME INFLAMMATORY SIGNALING PATHWAYS CAN PROMOTE THE CYCLING AND DIFFERENTIATION OF LSCS, AND THIS CAN BE EXPLOITED THERAPEUTICALLY. WE ALSO DISCUSS THE THERAPEUTIC POTENTIAL OF MODULATING INFLAMMATORY SIGNALING FOR THE TREATMENT OF MYELOID MALIGNANCIES. 2017 14 5140 28 POTENTIAL REGULATORS OF THE SENESCENCE-ASSOCIATED SECRETORY PHENOTYPE DURING SENESCENCE AND AGING. SENESCENT CELLS EXPRESS AND SECRETE A VARIETY OF EXTRACELLULAR MODULATORS THAT INCLUDE CYTOKINES, CHEMOKINES, PROTEASES, GROWTH FACTORS, AND SOME ENZYMES ASSOCIATED WITH EXTRACELLULAR MATRIX REMODELING, DEFINED AS THE SENESCENCE-ASSOCIATED SECRETORY PHENOTYPE (SASP). SASP REINFORCES SENESCENT CELL CYCLE ARREST, STIMULATES AND RECRUITS IMMUNE CELLS FOR IMMUNE-MEDIATED CLEARANCE OF POTENTIALLY TUMORIGENIC CELLS, LIMITS OR INDUCES FIBROSIS, AND PROMOTES WOUND HEALING AND TISSUE REGENERATION. ON THE OTHER HAND, SASP MEDIATES CHRONIC INFLAMMATION LEADING TO THE DESTRUCTION OF TISSUE STRUCTURE AND FUNCTION AND STIMULATING THE GROWTH AND SURVIVAL OF TUMOR CELLS. SASP IS HIGHLY HETEROGENEOUS AND THE ROLE OF SASP DEPENDS ON THE CONTEXT. THE REGULATION OF SASP OCCURS AT MULTIPLE LEVELS INCLUDING CHROMATIN REMODELING, TRANSCRIPTION, MRNA TRANSLATION, INTRACELLULAR TRAFFICKING, AND SECRETION. SEVERAL SASP MODULATORS HAVE ALREADY BEEN IDENTIFIED SETTING THE STAGE FOR FUTURE RESEARCH ON THEIR CLINICAL APPLICATIONS. IN THIS REVIEW, WE SUMMARIZE IN DETAIL THE POTENTIAL SIGNALING PATHWAYS THAT TRIGGER AND REGULATE SASP PRODUCTION DURING AGING AND SENESCENCE. 2022 15 5631 35 SENESCENCE-INFLAMMATORY REGULATION OF REPARATIVE CELLULAR REPROGRAMMING IN AGING AND CANCER. THE INABILITY OF ADULT TISSUES TO TRANSITORILY GENERATE CELLS WITH FUNCTIONAL STEM CELL-LIKE PROPERTIES IS A MAJOR OBSTACLE TO TISSUE SELF-REPAIR. NUCLEAR REPROGRAMMING-LIKE PHENOMENA THAT INDUCE A TRANSIENT ACQUISITION OF EPIGENETIC PLASTICITY AND PHENOTYPE MALLEABILITY MAY CONSTITUTE A REPARATIVE ROUTE THROUGH WHICH HUMAN TISSUES RESPOND TO INJURY, STRESS, AND DISEASE. HOWEVER, TISSUE REJUVENATION SHOULD INVOLVE NOT ONLY THE TRANSIENT EPIGENETIC REPROGRAMMING OF DIFFERENTIATED CELLS, BUT ALSO THE COMMITTED RE-ACQUISITION OF THE ORIGINAL OR ALTERNATIVE COMMITTED CELL FATE. CHRONIC OR UNRESTRAINED EPIGENETIC PLASTICITY WOULD DRIVE AGING PHENOTYPES BY IMPAIRING THE REPAIR OR THE REPLACEMENT OF DAMAGED CELLS; SUCH UNCONTROLLED PHENOMENA OF IN VIVO REPROGRAMMING MIGHT ALSO GENERATE CANCER-LIKE CELLULAR STATES. WE HEREIN PROPOSE THAT THE ABILITY OF SENESCENCE-ASSOCIATED INFLAMMATORY SIGNALING TO REGULATE IN VIVO REPROGRAMMING CYCLES OF TISSUE REPAIR OUTLINES A THRESHOLD MODEL OF AGING AND CANCER. THE DEGREE OF SENESCENCE/INFLAMMATION-ASSOCIATED DEVIATION FROM THE HOMEOSTATIC STATE MAY DELINEATE A TYPE OF THRESHOLDING ALGORITHM DISTINGUISHING BENEFICIAL FROM DELETERIOUS EFFECTS OF IN VIVO REPROGRAMMING. FIRST, TRANSIENT ACTIVATION OF NF-KAPPAB-RELATED INNATE IMMUNITY AND SENESCENCE-ASSOCIATED INFLAMMATORY COMPONENTS (E.G., IL-6) MIGHT FACILITATE REPARATIVE CELLULAR REPROGRAMMING IN RESPONSE TO ACUTE INFLAMMATORY EVENTS. SECOND, PARA-INFLAMMATION SWITCHES MIGHT PROMOTE LONG-LASTING BUT REVERSIBLE REFRACTORINESS TO REPARATIVE CELLULAR REPROGRAMMING. THIRD, CHRONIC SENESCENCE-ASSOCIATED INFLAMMATORY SIGNALING MIGHT LOCK CELLS IN HIGHLY PLASTIC EPIGENETIC STATES DISABLED FOR REPARATIVE DIFFERENTIATION. THE CONSIDERATION OF A CELLULAR REPROGRAMMING-CENTERED VIEW OF EPIGENETIC PLASTICITY AS A FUNDAMENTAL ELEMENT OF A TISSUE'S CAPACITY TO UNDERGO SUCCESSFUL REPAIR, AGING DEGENERATION OR MALIGNANT TRANSFORMATION SHOULD PROVIDE CHALLENGING STOCHASTIC INSIGHTS INTO THE CURRENT DETERMINISTIC GENETIC PARADIGM FOR MOST CHRONIC DISEASES, THEREBY INCREASING THE SPECTRUM OF THERAPEUTIC APPROACHES FOR PHYSIOLOGICAL AGING AND CANCER. 2017 16 559 21 BACH2 ENFORCES THE TRANSCRIPTIONAL AND EPIGENETIC PROGRAMS OF STEM-LIKE CD8(+) T CELLS. DURING CHRONIC INFECTION AND CANCER, A SELF-RENEWING CD8(+) T CELL SUBSET MAINTAINS LONG-TERM IMMUNITY AND IS CRITICAL TO THE EFFECTIVENESS OF IMMUNOTHERAPY. THESE STEM-LIKE CD8(+) T CELLS DIVERGE FROM OTHER CD8(+) SUBSETS EARLY AFTER CHRONIC VIRAL INFECTION. HOWEVER, PATHWAYS GUARDING STEM-LIKE CD8(+) T CELLS AGAINST TERMINAL EXHAUSTION REMAIN UNCLEAR. HERE, WE SHOW THAT THE GENE ENCODING TRANSCRIPTIONAL REPRESSOR BACH2 IS TRANSCRIPTIONALLY AND EPIGENETICALLY ACTIVE IN STEM-LIKE CD8(+) T CELLS BUT NOT TERMINALLY EXHAUSTED CELLS EARLY AFTER INFECTION. BACH2 OVEREXPRESSION ENFORCED STEM-LIKE CELL FATE, WHEREAS BACH2 DEFICIENCY IMPAIRED STEM-LIKE CD8(+) T CELL DIFFERENTIATION. SINGLE-CELL TRANSCRIPTOMIC AND EPIGENOMIC APPROACHES REVEALED THAT BACH2 ESTABLISHED THE TRANSCRIPTIONAL AND EPIGENETIC PROGRAMS OF STEM-LIKE CD8(+) T CELLS. IN ADDITION, BACH2 SUPPRESSED THE MOLECULAR PROGRAM DRIVING TERMINAL EXHAUSTION THROUGH TRANSCRIPTIONAL REPRESSION AND EPIGENETIC SILENCING. THUS, OUR STUDY REVEALS A NEW PATHWAY THAT ENFORCES COMMITMENT TO STEM-LIKE CD8(+) LINEAGE AND PREVENTS AN ALTERNATIVE TERMINALLY EXHAUSTED CELL FATE. 2021 17 115 28 A STEM CELL AGING FRAMEWORK, FROM MECHANISMS TO INTERVENTIONS. STEM CELLS PLAY CENTRAL ROLES IN TISSUE DEVELOPMENT, HOMEOSTASIS, AND REGENERATION. DECADES OF SCIENTIFIC RESEARCH HAVE UNCOVERED PROCESSES OF STEM CELL DECLINE IN TISSUE AND ORGANISMAL AGING, AND MORE RECENTLY, PIONEERING TECHNOLOGIES PERMIT THE DISSECTION OF ITS UNDERLYING MECHANISMS AND INFORM THERAPEUTIC DEVELOPMENT FOR AGING AND AGING-ASSOCIATED DISORDERS. IN THIS REVIEW, WE ELUCIDATE AGING-RELATED FEATURES ACROSS DIFFERENT SOMATIC STEM CELL TYPES, WITH A SPECIFIC FOCUS ON EPIGENETIC CHANGES, LOSS OF PROTEIN HOMEOSTASIS, AND SYSTEMIC INFLUENCING FACTORS, INCLUDING CHRONIC INFLAMMATION, CIRCADIAN RHYTHM DYSREGULATION, AND METABOLIC DISORDER. OUR SURVEY OF ORGANISMAL STEM CELL AGING SUMMARIZES ITS UNDERLYING BIOLOGICAL IMPLICATIONS, POINTS TO POTENTIAL BIOMARKERS OF STEM CELL AGING, AND DISCUSSES STEM CELL-BASED THERAPEUTIC STRATEGIES WITH THE POTENTIAL FOR PROMOTING HEALTHY AGING AND COMBATING AGING AND AGE-RELATED DISEASES. 2022 18 6273 27 THE ORIGINS OF GASTRIC CANCER FROM GASTRIC STEM CELLS: LESSONS FROM MOUSE MODELS. THE CELLULAR ORIGIN OF DIGESTIVE CANCERS HAS BEEN A LONG-STANDING QUESTION IN THE CANCER FIELD. MOUSE MODELS HAVE IDENTIFIED LONG-LIVED STEM CELLS IN MOST ORGAN SYSTEMS, INCLUDING THE LUMINAL GASTROINTESTINAL TRACT, AND NUMEROUS STUDIES HAVE POINTED TO TISSUE RESIDENT STEM CELLS AS THE MAIN CELLULAR ORIGIN OF CANCER. DURING GASTRIC CARCINOGENESIS, CHRONIC INFLAMMATION INDUCES GENETIC AND EPIGENETIC ALTERATIONS IN LONG-LIVED STEM CELLS, ALONG WITH EXPANSION OF STEM CELL NICHES, EVENTUALLY LEADING TO INVASIVE CANCER. THE GASTRIC CORPUS AND ANTRUM HAVE DISTINCT STEM CELLS AND STEM CELL NICHES, SUGGESTING DIFFERENTIAL REGULATION OF CANCER INITIATION AT THE 2 SITES. IN THIS SHORT REVIEW, WE DISCUSS RECENT EXPERIMENTAL MODELS AND HUMAN STUDIES, WHICH PROVIDE IMPORTANT INSIGHTS INTO THE PATHOGENESIS OF GASTRIC CANCER. 2017 19 6452 34 THERAPIES TARGETING TRAINED IMMUNE CELLS IN INFLAMMATORY AND AUTOIMMUNE DISEASES. THE CONCEPT OF TRAINED IMMUNITY HAS RECENTLY EMERGED AS A MECHANISM CONTRIBUTING TO SEVERAL IMMUNE MEDIATED INFLAMMATORY CONDITIONS. TRAINED IMMUNITY IS DEFINED BY THE IMMUNOLOGICAL MEMORY DEVELOPED IN INNATE IMMUNE CELLS AFTER A PRIMARY NON-SPECIFIC STIMULUS THAT, IN TURN, PROMOTES A HEIGHTENED INFLAMMATORY RESPONSE UPON A SECONDARY CHALLENGE. THE MOST CHARACTERISTIC CHANGES ASSOCIATED TO THIS PROCESS INVOLVE THE REWIRING OF CELL METABOLISM AND EPIGENETIC REPROGRAMMING. UNDER PHYSIOLOGICAL CONDITIONS, THE ROLE OF TRAINED IMMUNE CELLS ENSURES A PROMPT RESPONSE. THIS ACTION IS LIMITED BY EFFECTIVE RESOLUTION OF INFLAMMATION AND TISSUE REPAIR IN ORDER TO RESTORE HOMEOSTASIS. HOWEVER, UNRESTRAINED ACTIVATION OF INNATE IMMUNE CELLS CONTRIBUTES TO THE DEVELOPMENT OF CHRONIC INFLAMMATION AND TISSUE DESTRUCTION THROUGH THE SECRETION OF INFLAMMATORY CYTOKINES, PROTEASES AND GROWTH FACTORS. THEREFORE, INTERVENTIONS AIMED AT REVERSING THE CHANGES INDUCED BY TRAINED IMMUNITY PROVIDE POTENTIAL THERAPEUTIC APPROACHES TO TREAT INFLAMMATORY AND AUTOIMMUNE DISEASES LIKE RHEUMATOID ARTHRITIS (RA). WE REVIEW CELLULAR APPROACHES THAT TARGET METABOLISM AND THE EPIGENETIC REPROGRAMMING OF DENDRITIC CELLS, MACROPHAGES, NATURAL KILLER CELLS, AND OTHER TRAINED CELLS IN THE CONTEXT OF AUTOIMMUNE INFLAMMATORY DISEASES. 2020 20 771 30 CD8(+) T CELL EXHAUSTION. CD8(+) T CELLS ARE IMPORTANT FOR THE PROTECTIVE IMMUNITY AGAINST INTRACELLULAR PATHOGENS AND TUMOR. IN THE CASE OF CHRONIC INFECTION OR CANCER, CD8(+) T CELLS ARE EXPOSED TO PERSISTENT ANTIGEN AND/OR INFLAMMATORY SIGNALS. THIS EXCESSIVE AMOUNT OF SIGNALS OFTEN LEADS CD8(+) T CELLS TO GRADUAL DETERIORATION OF T CELL FUNCTION, A STATE CALLED "EXHAUSTION." EXHAUSTED T CELLS ARE CHARACTERIZED BY PROGRESSIVE LOSS OF EFFECTOR FUNCTIONS (CYTOKINE PRODUCTION AND KILLING FUNCTION), EXPRESSION OF MULTIPLE INHIBITORY RECEPTORS (SUCH AS PD-1 AND LAG3), DYSREGULATED METABOLISM, POOR MEMORY RECALL RESPONSE, AND HOMEOSTATIC PROLIFERATION. THESE ALTERED FUNCTIONS ARE CLOSELY RELATED WITH ALTERED TRANSCRIPTIONAL PROGRAM AND EPIGENETIC LANDSCAPE THAT CLEARLY DISTINGUISH EXHAUSTED T CELLS FROM NORMAL EFFECTOR AND MEMORY T CELLS. T CELL EXHAUSTION IS OFTEN ASSOCIATED WITH INEFFICIENT CONTROL OF PERSISTING INFECTIONS AND CANCERS, BUT RE-INVIGORATION OF EXHAUSTED T CELLS WITH INHIBITORY RECEPTOR BLOCKADE CAN PROMOTE IMPROVED IMMUNITY AND DISEASE OUTCOME. ACCUMULATING EVIDENCES SUPPORT THE THERAPEUTIC POTENTIAL OF TARGETING EXHAUSTED T CELLS. HOWEVER, EXHAUSTED T CELLS COMPRISE HETEROGENOUS CELL POPULATION WITH DISTINCT RESPONSIVENESS TO INTERVENTION. UNDERSTANDING MOLECULAR MECHANISM OF T CELL EXHAUSTION IS ESSENTIAL TO ESTABLISH RATIONAL IMMUNOTHERAPEUTIC INTERVENTIONS. 2019