2019
Reversal of life-threatening hepatopulmonary syndrome in Gaucher disease by imiglucerase enzyme replacement therapy
Beshlawy AE, Murugesan V, Mistry PK, Eid K. Reversal of life-threatening hepatopulmonary syndrome in Gaucher disease by imiglucerase enzyme replacement therapy. Molecular Genetics And Metabolism Reports 2019, 20: 100490. PMID: 31309038, PMCID: PMC6606832, DOI: 10.1016/j.ymgmr.2019.100490.Peer-Reviewed Original ResearchImiglucerase enzyme replacement therapyEnzyme replacement therapyHepatopulmonary syndromeReplacement therapyGaucher diseaseLiver diseaseRecombinant enzyme replacement therapyAdvanced liver diseaseLife-threatening complicationsAdvanced fibrosisFibrotic featuresMassive hepatomegalySplenectomized patientsClinical manifestationsEnzyme therapySyndromeTherapyDisease pathologyDiseaseComplicationsMacrophagesCirrhosisHepatomegalyPatientsFibrosis
2011
GBA1 deficient mice recapitulates Gaucher disease displaying system-wide cellular and molecular dysregulation beyond the macrophage
Mistry P, Liu J, Blair H, Keutzer J, Zhang K, Sun L, Zaidi M. GBA1 deficient mice recapitulates Gaucher disease displaying system-wide cellular and molecular dysregulation beyond the macrophage. Molecular Genetics And Metabolism 2011, 102: s30. DOI: 10.1016/j.ymgme.2010.11.101.Peer-Reviewed Original Research
2010
Glucocerebrosidase gene-deficient mouse recapitulates Gaucher disease displaying cellular and molecular dysregulation beyond the macrophage
Mistry PK, Liu J, Yang M, Nottoli T, McGrath J, Jain D, Zhang K, Keutzer J, Chuang WL, Mehal WZ, Zhao H, Lin A, Mane S, Liu X, Peng YZ, Li JH, Agrawal M, Zhu LL, Blair HC, Robinson LJ, Iqbal J, Sun L, Zaidi M. Glucocerebrosidase gene-deficient mouse recapitulates Gaucher disease displaying cellular and molecular dysregulation beyond the macrophage. Proceedings Of The National Academy Of Sciences Of The United States Of America 2010, 107: 19473-19478. PMID: 20962279, PMCID: PMC2984187, DOI: 10.1073/pnas.1003308107.Peer-Reviewed Original ResearchConceptsType 1 Gaucher diseaseThymic T cellsGene-deficient miceOsteoblastic bone formationWorthwhile therapeutic targetDendritic cellsSevere osteoporosisAutoimmune diseasesWidespread dysfunctionCytokine measurementsT cellsCell lineagesParkinson's diseaseTherapeutic targetGBA1 geneMononuclear phagocytesGaucher diseaseGlucocerebrosidase deficiencyMolecular dysregulationDiseaseInhibitory effectBone formationMultiple cell lineagesMesenchymal cell lineagesMacrophages
1995
Osteopontin is Highly Expressed in Human Macrophages but Not Human Vascular Smooth Muscle Cells in Culture
Newman C, Bruun B, Mistry P, Weissberg P, Shanahan C. Osteopontin is Highly Expressed in Human Macrophages but Not Human Vascular Smooth Muscle Cells in Culture. Clinical Science 1995, 88: 29p-29p. DOI: 10.1042/cs088029pa.Peer-Reviewed Original Research