SF3B1 mutation predicts unfavorable treatment-free survival in Chinese chronic lymphocytic leukemia patients.

BACKGROUND: Splicing factor 3b subunit 1 (SF3B1), a splicing factor modulating RNA alternative splicing, is frequently mutated in multiple hematological malignancies including myelodysplastic syndromes and chronic lymphocytic leukemia (CLL). The clinical impact of SF3B1 mutation on CLL remains controversial especially for patients of Asian descent. METHODS: We retrospectively analyzed the frequency of SF3B1 mutation by Sanger sequencing in 399 newly diagnosed Chinese CLL patients. RESULTS: SF3B1 mutation was detected in 5.5% (22/399) of the studied cohort with 59.1% of them being c.A2098G (p.K700E). SF3B1 mutation was common in patients with unmutated immunoglobulin heavy chain variable region gene, positive CD38 and positive ZAP-70. Survival analysis showed that SF3B1 mutation was associated with short treatment-free survival (TFS), but not overall survival (OS). We then developed 2 new risk models, named CLL-IPI-S and CLL-PI, according to the SF3B1 mutation status and CLL-international prognostic index (CLL-IPI); CLL-PI showed greater power to predict TFS than CLL-IPI in Chinese CLL patients. CONCLUSIONS: Our data suggest a low incidence and adverse clinical significance of SF3B1 mutation in newly diagnosed Chinese CLL patients.

Adenovirus encoding human platelet-derived growth factor-B delivered in collagen exhibits safety, biodistribution, and immunogenicity profiles favorable for clinical use.

We have developed a therapeutic approach to wound repair involving immobilization of gene transfer vectors within biocompatible matrices (gene-activated matrix, or GAM). The matrix also serves as a scaffold for cellular in-growth and subsequent gene uptake and expression. An adenoviral vector encoding human platelet-derived growth factor-B delivered in collagen (AdPDGF-B/GAM) has demonstrated efficacy in models of wound repair. The safety, biodistribution, and immunogenicity profiles of AdPDGF-B/GAM were examined using a rabbit dermal wound model. Four weekly doses at 1 x 10(10) and 1 x 10(11) viral particles/cm2 of wound surface stimulated dose-related increases in granulation tissue formation and cell proliferation. In situ hybridization and immunostaining demonstrated concordant expression of human PDGF-B mRNA and protein. No treatment-related changes in hematology, serum chemistry, or histopathology were observed. Although AdPDGF-B DNA and PDGF-B mRNA were detected in wounds and axillary lymph nodes of treated animals, no AdPDGF-B was detected in blood or other organs. No immunologic responses against collagen were observed; however, as expected, IgG responses to AdPDGF-B and human PDGF-BB protein were detected. In adenovirus-preimmunized rats, attenuation of the wound healing response was modest (approximately 16%). Collectively, these observations indicate that repeat doses of AdPDGF-B/GAM are well tolerated and lead to robust, localized tissue repair.