Importance: Castleman disease (CD) is an ultrarare, interleukin-6 (IL-6)-driven lymphoproliferative disorder whose underlying molecular alterations are unknown. Siltuximab (anti-IL-6 antibody) is approved for treatment of this disease. To our knowledge, genomic sequencing of CD has not been reported.
Objective: To investigate and identify molecular aberration(s) that help explain the exceptional response to siltuximab in a patient with cutaneous CD.
Design, setting, and participants: This case study examines data from comprehensive genomic profiling (using targeted next-generation sequencing) of tissue from a patient with cutaneous CD who demonstrated an exceptional response to siltuximab treated at a National Cancer Institute-designated Comprehensive Cancer Center.
Interventions: Intravenous siltuximab 12 mg/kg every 3 weeks. Tissue from the patient was interrogated by next-generation sequencing (405 genes). Serum was evaluated for IL-6 levels by enzyme-linked immunoassay.
Main outcomes and measures: Identification of pretreatment serum IL-6 levels and somatic variants that may explain the exceptional response to siltuximab in this patient with cutaneous CD.
Results: Patient pretreatment serum IL-6 levels were normal. Treatment with siltuximab resulted in a complete response lasting 7 years. Next-generation sequencing demonstrated a JAK1V310I missense mutation. Janus Kinase 1 (JAK1) is a crucial signaling component of the IL-6/IL-6 receptor/gp130 machinery. JAK1V310I may induce a conformation change with functional activation effect leading to enhanced sensitivity to the IL-6 ligand.
Conclusions and relevance: Our observations suggest that a JAK1 alteration may explain the underlying biology of a patient's cutaneous CD, as well as the patient's exceptional response to siltuximab.