Pilot experience with opebacan/rBPI 21 in myeloablative hematopoietic cell transplantation.

Bacterial infection and inflammation contribute significantly to the morbidity and mortality of myeloablative allogeneic hematopoietic cell transplantation (HCT). Endotoxin, a component of the outer membrane of Gram-negative bacteria, is a potent inflammatory stimulus in humans. Bactericidal/permeability increasing protein (BPI), a constituent of human neutrophil granules, binds endotoxin thereby precluding endotoxin-induced inflammation and also has direct anti-infective properties against bacteria. As a consequence of myeloablative therapy used in preparation for hematopoietic cell infusion, patients experience gastrointestinal leak of bacteria and bacterial toxins into the systemic circulation and a period of inflammatory cytokine elevation associated with subsequent regimen-related toxicities.  Patients frequently become endotoxemic and febrile as well as BPI-deficient due to sustained neutropenia. To examine whether enhancing endotoxin-neutralizing and anti-infective activity by exogenous administration of a recombinant N-terminal fragment of BPI (rBPI 21, generic name opebacan) might ameliorate regimen-related toxicities including infection, we recruited patients scheduled to undergo myeloablative HCT to participate in a proof-of-concept prospective phase I/II trial. After the HCT preparative regimen was completed, opebacan was initiated 18-36 hours prior to administration of allogeneic hematopoietic stem cells (defined as Day 0) and continued for 72 hours. The trial was to have included escalation of rBPI 21 dose and duration but was stopped prematurely due to lack of further drug availability.  Therefore, to better understand the clinical course of opebacan-treated patients (n=6), we compared their outcomes with a comparable cohort meeting the same eligibility criteria and enrolled in a non-interventional myeloablative HCT observational study (n = 35).  Opebacan-treated participants had earlier platelet engraftment (p=0.005), mirroring beneficial effects of rBPI 21 previously observed in irradiated mice, fewer documented infections (p=0.03) and appeared less likely to experience significant regimen-related toxicities (p=0.05). This small pilot experience supports the potential utility of rBPI 21 in ameliorating HCT-related morbidity and merits further exploration.

Selective allosteric antibodies to the insulin receptor for the treatment of hyperglycemic and hypoglycemic disorders.

Many therapeutic monoclonal antibodies act as antagonists to receptors by targeting and blocking the natural ligand binding site (orthosteric site). In contrast, the use of antibodies to target receptors at allosteric sites (distinct from the orthosteric site) has not been extensively studied. This approach is especially important in metabolic diseases in which endogenous ligand levels are dysregulated. Herein, we review our investigations of 3 categories of human monoclonal antibodies that bind allosterically to the insulin receptor (INSR) and affect its activity: XMetA, XMetS and XMetD. XMetA directly activates the INSR either alone or in combination with insulin. XMetS, in contrast, does not directly activate the INSR but markedly enhances the receptor's ability to bind insulin and potentiate insulin signaling. Both XMetA and XMetS are effective in controlling hyperglycemia in mouse models of diabetes. A third allosteric antibody, XMetD, is an inhibitor of INSR signaling. This antibody reverses insulin-induced hypoglycemia in a mouse model of hyperinsulinemia. These studies indicate, therefore, that allosteric antibodies to INSR can modulate its signaling and correct conditions of glucose dysregulation. These studies also raise the possibility that the use of allosteric antibodies can be expanded to other receptors for the treatment of metabolic disorders.

Interleukin-1ß-regulating antibody XOMA 052 (gevokizumab) in the treatment of acute exacerbations of resistant uveitis of Behcet's disease: an open-label pilot study.

OBJECTIVE: Uveitis and retinal vasculitis are sight-threatening manifestations of Behçet's disease with limited treatment options. This pilot study aimed to evaluate the safety, pharmacokinetics and clinical activity of XOMA 052 (gevokizumab), a recombinant humanised anti-interleukin 1ß antibody, in Behçet's disease patients with uveitis. METHODS: Patients with acute posterior or panuveitis, and/or retinal vasculitis, resistant to azathioprine and/or ciclosporin, and receiving 10 mg/day or less of prednisolone, were enrolled into the 98-day study. Immunosuppressive agents were discontinued at baseline. Patients received a single infusion of XOMA 052 (0.3 mg/kg). The safety and uveitis status and pharmacokinetics of XOMA 052 were evaluated. RESULTS: Seven patients enrolled and completed the study. No treatment-related adverse event was observed. XOMA 052 treatment was associated with rapid and durable clinical response in all patients. Complete resolution of intraocular inflammation was achieved in 4-21 days (median 14 days), with a median duration of response of 49 days (range 21-97 days); one patient remained exacerbation free throughout the study. CONCLUSIONS: Well tolerated, XOMA 052 resulted in a rapid onset and sustained reduction in intraocular inflammation in patients with resistant uveitis and retinal vasculitis. Moreover, the effect was observed despite discontinuation of immunosuppressive agents and without the need to increase corticosteroid dosages.