2024
Structural Basis for p19 Targeting by Anti–IL-23 Biologics: Correlations with Short- and Long-Term Efficacy in Psoriasis
Daniele S, Eldirany S, Damiani G, Ho M, Bunick C. Structural Basis for p19 Targeting by Anti–IL-23 Biologics: Correlations with Short- and Long-Term Efficacy in Psoriasis. JID Innovations 2024, 4: 100261. PMID: 38445231, PMCID: PMC10914523, DOI: 10.1016/j.xjidi.2024.100261.Peer-Reviewed Original ResearchIL-23Clinical efficacyIL-23 inhibitors risankizumabSurface areaLong-term clinical efficacyMolecular propertiesIL-23 inhibitorsSolvent accessible surface areaHydrogen-deuterium exchangeIL-23 p19 subunitAccessible surface areaAssociated with short-Clinical efficacy scorePlaque psoriasisClinical responseP19 subunitCrystallographic experimentsPsoriasis pathogenesisReceptor epitopesInhibitor epitopesPsoriasisLinear regression analysisEfficacyTherapeutic classesBinding affinity
2020
Structural Basis for How Biologic Medicines Bind their Targets in Psoriasis Therapy.
Eldirany SA, Ho M, Bunick CG. Structural Basis for How Biologic Medicines Bind their Targets in Psoriasis Therapy. The Yale Journal Of Biology And Medicine 2020, 93: 19-27. PMID: 32226331, PMCID: PMC7087057.Peer-Reviewed Original ResearchConceptsBiologic therapyTumor necrosis factor alphaFirst-line treatmentTreatment of psoriasisNecrosis factor alphaClinical responseInterleukin-17Interleukin-23Line treatmentPrescribing practicesPsoriasis therapyInflammatory disordersTreatment optionsTherapeutic decisionsClinical dataFactor alphaPatient safetyTherapySignificant differencesBiologic medicinesDrugsEpitope locationMolecular differencesTreatmentMedications