2021
Longitudinal transcriptomics define the stages of myeloid activation in the living human brain after intracerebral hemorrhage
Askenase MH, Goods BA, Beatty HE, Steinschneider AF, Velazquez SE, Osherov A, Landreneau MJ, Carroll SL, Tran TB, Avram VS, Drake RS, Gatter GJ, Massey JA, Karuppagounder SS, Ratan RR, Matouk CC, Sheth KN, Ziai WC, Parry-Jones AR, Awad IA, Zuccarello M, Thompson RE, Dawson J, Hanley DF, Love JC, Shalek AK, Sansing LH, Barrer S, MacKenzie L, Jonczak K, Bussinger P, Nakaji P, Wright S, Honea N, Zomorodi A, James M, Yeh E, Galicich W, Bergman T, France K, Leiphart J, Ramesh S, Brennan T, Huang J, Ziai W, White M, Camarata P, Abraham M, Gorup J, Reimer R, Freeman W, Williams C, Edwards E, Pollack A, Terry J, Shoen A, Jahromi B, Maas M, Yip B, Amidei C, Muñoz L, Lopez G, Holtz R, Gupta G, Rybinnik I, Moccio M, Lovick D, Brion B, Titus K, Jallo J, Rincon F, Pigott K, Boyden L, Dougherty J, Harrigan M, Miller D, Nelson L, Thompson G, Rajajee V, Pandey A, Ball R, Carlson A, Tran H, Alchbli A, James R, Jerde A, Taussky P, Ansari S, Neate C, Martinez J, Letsinger J, Fagatele L, Eaquinto C, Matouk C, Sheth K, Sansing L, Ryall L, Kunze K, Mampre D, Jasak S, Abdul-Rahim A, Abou-Hamden A, Abraham M, Ahmed A, Alba C, Aldrich E, Ali H, Altschul D, Amin-Hanjani S, Anderson C, Anderson D, Ansari S, Antezana D, Ardelt A, Arikan F, Awad R, Baguena M, Baker A, Barrer S, Barzo P, Becker K, Bergman T, Betz J, Bistran-Hall A, Boström A, Braun J, Brindley P, Broaddus W, Brown R, Buki A, Bulters D, Camarata P, Cao B, Cao Y, Carhuapoma J, Carlson A, Caron J, Carrion-Penagos J, Chalela J, Chang T, Chicoine M, Chorro I, Chowdhry S, Cobb C, Corral L, Csiba L, Davies J, Dawson J, Díaz A, Derdeyn C, Diringer M, Dlugash R, Dodd R, Ecker R, Economas T, Enriquez P, Ezer E, Fan Y, Feng H, Franz D, Freeman W, Fusco M, Galicich W, Gandhi D, Gelea M, Goldstein J, Gonzalez A, Grabarits C, Greenberg S, Gregson B, Gress D, Gu E, Gupta G, Hall C, Hanley D, Hao Y, Harnof S, Harrigan M, Hernandez F, Hoesch R, Hoh B, Houser J, Hu R, Huang J, Huang Y, Hussain M, Insinga S, Jadhav A, Jaffe J, Jahromi B, Jallo J, James M, James R, Janis S, Jankowitz B, Jeon E, Jichici D, Jonczak K, Jonker B, Karlen N, Kase C, Keric N, Kerz T, Kitagawa R, Knopman J, Koenig C, Krishnamurthy S, Kumar A, Kureshi I, Laidlaw J, Lakhanpal A, Lane K, Latorre J, LeDoux D, Lees K, Leifer D, Leiphart J, Lenington S, Li Y, Lopez G, Lovick D, Lumenta C, Luo J, Maas M, MacDonald J, MacKenzie L, Madan V, Majkowski R, Major O, Malhorta R, Malkoff M, Mangat H, Maswadeh A, Matouk C, Mayo S, McArthur K, McBee N, McCaul S, Medow J, Mendelow A, Mezey G, Mighty J, Miller D, Mitchell P, Mohan K, Money P, Mould W, Muir K, Muñoz L, Nakaji P, Nee A, Nekoovaght-Tak S, Nyquist P, O’Kane R, Okasha M, O'Kelly C, Ostapkovich N, Pandey A, Parry-Jones A, Patel H, Perla K, Pollack A, Polster S, Pouratian N, Quinn T, Rajajee V, Reddy K, Rehman M, Reimer R, Rincon F, Rosenblum M, Rybinnik I, Sanchez B, Sansing L, Sarabia R, Schneck M, Schuerer L, Schul D, Schweitzer J, Seder D, Seyfried D, Sheth K, Spiotta A, Stadnik A, Stechison M, Sugar E, Szabo K, Tamayo G, Tanczos K, Taussky P, Teitelbaum J, Terry J, Testai F, Thomas K, Thompson C, Thompson G, Thompson R, Torner J, Tran H, Tucker K, Ullman N, Ungar L, Unterberg A, Varelas P, Vargas N, Vatter H, Venkatasubramanian C, Vermillion K, Vespa P, Vollmer D, Wang W, Wang Y, Wang Y, Wen J, Whitworth L, Willis B, Wilson A, Wolfe S, Wrencher M, Wright S, Xu Y, Yanase L, Yenokyan G, Yi X, Yu Z, Ziai W, Zomorodi A, Zuccarello M. Longitudinal transcriptomics define the stages of myeloid activation in the living human brain after intracerebral hemorrhage. Science Immunology 2021, 6 PMID: 33891558, PMCID: PMC8252865, DOI: 10.1126/sciimmunol.abd6279.Peer-Reviewed Original ResearchConceptsIntracerebral hemorrhageHypoxia-inducible factorMyeloid activationBrain injuryImmune responseAnti-inflammatory circuitsSubtypes of strokeAnti-inflammatory factorsInflammatory gene expressionPositive patient outcomesMonocytes/macrophagesDynamics of inflammationAcute sterile injuryLongitudinal transcriptional profilingHuman brainNeurological recoveryMyeloid responseProinflammatory profileImmune resolutionPatient cohortImmune factorsClinical trialsPatient outcomesSterile injuryProstaglandin E
2016
Chapter 14 Trypanosoma cruzi and Chagas Disease: Innate Immunity, ROS, and Cardiovascular System
Tanowitz H, Wen J, Machado F, Desruisseaux M, Robello C, Garg N. Chapter 14 Trypanosoma cruzi and Chagas Disease: Innate Immunity, ROS, and Cardiovascular System. 2016, 183-193. DOI: 10.1016/b978-0-12-801078-5.00014-5.ChaptersChagas diseaseThromboxane A2Innate immunityAnti-inflammatory factorsContribution of cytokinesTrypanosoma cruziSignificant morbidityVasoconstrictive actionEndothelin-1Nonendemic areasEndemic areasEicosanoid pathwayCardiovascular systemDiseaseNatural transmissionImmunityOxygen speciesCruziMorbidityChemokinesA2CytokinesPathogenesisLipoxinsMortality
2014
Intravenous mesenchymal stem cell administration exhibits therapeutic effects against 6-hydroxydopamine-induced dopaminergic neurodegeneration and glial activation in rats
Suzuki S, Kawamata J, Iwahara N, Matsumura A, Hisahara S, Matsushita T, Sasaki M, Honmou O, Shimohama S. Intravenous mesenchymal stem cell administration exhibits therapeutic effects against 6-hydroxydopamine-induced dopaminergic neurodegeneration and glial activation in rats. Neuroscience Letters 2014, 584: 276-281. PMID: 25449872, DOI: 10.1016/j.neulet.2014.10.039.Peer-Reviewed Original ResearchConceptsHuman bone marrow-derived mesenchymal stem cellsTherapeutic effectParkinson's diseaseCalcium binding adaptor molecule 1Mesenchymal stem cell administrationSubstantia nigra pars compactaHemi-parkinsonian rat modelParkinsonian model ratsTH-positive neuronsAdaptor molecule 1Anti-inflammatory factorsStem cell administrationNovel therapeutic optionsSham-operated ratsBone marrow-derived mesenchymal stem cellsMarrow-derived mesenchymal stem cellsGlial activationPars compactaCell administrationTherapeutic optionsDopaminergic neuronsModel ratsDopaminergic neurodegenerationNovel therapiesRat model
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