GBP-5 splicing variants: New guanylate-binding proteins with tumor-associated expression and antigenicity.

We have identified a new gene, gbp-5, with high homology to the guanylate binding proteins (GBP) belonging to the GTPase superfamily including the ras gene. gbp-5 is transcribed at least into three splicing variants (gbp-5a, -5b, and -5ta) leading to two different proteins (GBP-5a/b, GBP-5ta). GBP-5ta is C-terminally truncated by 97aa and has therefore lost its isoprenylation site. Although RT-PCR results indicated expression of GBP-5 members in selected normal tissues, western blotting using two newly generated antibodies revealed that expression of both proteins is restricted to peripheral blood monocytes with GBP-5ta at lower levels. In contrast, cutaneous T-cell lymphoma (CTCL) tumor tissues (seven of seven) were positive solely for GBP-5ta, and four of four CTCL cell lines expressed both proteins. Eight of nine melanoma cell lines expressed GBP-5a/b and four of nine additionally low levels of GBP-5ta. SEREX retesting using CTCL sera indicated a higher immunogenicity for GBP-5ta (nine of 16) than for GBP-5a/b (two of 11). Treatment of CTCL cell lines with interferon-gamma did not alter protein expression of GBP-5ta or GBP-5a/b. The restricted expression pattern of both GBP-5ta and GBP-5a/b and the pivotal role of many known members of the GTP-binding proteins in proliferation and differentiation suggest possible cancer-related functions of gbp-5.

Adenovirus-mediated intralesional interferon-gamma gene transfer induces tumor regressions in cutaneous lymphomas.

Primary cutaneous lymphomas have been successfully treated with interferons (IFNs), counterbalancing the T-helper 2 (Th2)-skewing state. We undertook a phase 1, open-label, dose-escalating trial of repeated intratumoral administration of TG1042 in patients with advanced primary cutaneous T-cell lymphomas (CTCLs) and multilesional cutaneous B-cell lymphomas (CBCLs). TG1042 is a third-generation, nonreplicating human adenovirus vector containing a human IFN-gamma cDNA insert. Nine patients (7 CTCL, 2 CBCL) were enrolled at the following TG1042 doses: 3 x 10(9), 3 x 10(10), and 3 x 10(11) total particles. Local clinical response was observed in 5 of 9 treated patients (3 patients with complete response [CR] and 2 patients with partial response [PR]). Out of these, 3 patients showed systemic CR with the clearance of other noninjected skin lesions. Clinical response lasted for a median of 3 months (range, 1-6 months). Adverse events were mostly of grades 1 and 2. Seven of 9 treated patients had a detectable TG1042-derived IFN-gamma message in injected lesions after the first treatment cycle. A TG1042-IFN-gamma message was also detectable after several treatment cycles. We demonstrate the induction of humoral immune response to lymphoma tumor-antigen se70-2 after treatment. Our study shows that intralesional injections of TG1042 are both safe and well tolerated.