Inherited Neutrophil Disorders: Molecular Basis and New Therapies.

Recent advances in our understanding of the molecular basis of inherited neutrophil disorders and complementary studies in transgenic mouse models have provided new insights into the normal mechanisms regulating myelopoiesis and the functional responses of mature neutrophils. Neutrophil specific granule deficiency is a rare disorder of neutrophil function characterized by a lack of neutrophil secondary granule proteins and associated with recurrent bacterial infections. The CCAAT/enhancer binding protein (C/EBP) epsilon, a leucine zipper transcription factor expressed primarily in myeloid cells, and C/EBPepsilon-deficient mice generated by gene targeting lack specific granules and have impaired host defense are discussed by Dr. Lekstrom-Himes in Section I. The similarity between these phenotypes led to the identification of a loss of function mutation in the C/EBPepsilon gene in a subset of patients with specific granule deficiency. Dr. Dale reviews the clinical features and management of congenital neutropenia and cyclic hematopoiesis in Section II. Inherited mutations in the neutrophil elastase gene have recently been identified in both disorders. Specific mutations identified in cyclic and congenital neutropenia are described along with possible mechanisms for regulation of hematopoiesis by neutrophil elastase. In Section III, Dr. Dinauer reviews the molecular genetics of chronic granulomatous disease and studies in knockout mouse models. This work has revealed important features of the regulation of the respiratory burst oxidase and its role in host defense and inflammation. Results from preclinical studies and phase 1 clinical trials for gene therapy for CGD are summarized, in addition to alternative approaches using allogeneic bone marrow transplantation with nonmyeloablative conditioning.