A Novel Bifunctional Protein TNFR2-Fc-IL-1ra (TFI): Expression, Purification and its Neutralization Activity of Inflammatory Factors

One of the TNF superfamily members: bifunctional protein, TNFR2-Fc-IL-1ra

Many anti-inflammatory agents have been exploited for the treatment of inflammatory diseases by targeting the most potent proinflammatory cytokines including tumor necrosis factor (TNF) and interleukin-1 (IL-1). Theoretically, simultaneous neutralization or blocking two important inflammatory mediators might achieve a synergistic therapeutic effect. A recombinant fusion protein, TNFR2-Fc-IL-1ra (TFI), was developed as bifunctional inflammatory inhibitor. TFI was able to strongly neutralize TNF activity and to antagonize IL-1 receptor in the cell binding inhibition assays, suggesting that TFI could be used as a bifunctional ligand with enhanced anti-inflammatory effect.

Inflammation imaging of atherosclerosis in Apo-E-deficient mice using a (99m)Tc-labeled dual-domain cytokine ligand

Interleukin-1β (IL-1β) and tumor necrosis factor-α (TNF-α) play a critical role in initiating and accelerating atherosclerosis. This study evaluated the imaging properties of (99m)Tc-TNFR2-Fc-IL-1RA ((99m)Tc-TFI), a dual-domain cytokine radioligand that targets TNF-α and IL-1β pathways, in assessing atherosclerosis development in apolipoprotein-E-deficient (ApoE(-)(/)(-)) mice.

METHODS

The feasibility and specificity of detecting atherosclerosis with (99m)Tc-TFI SPECT imaging were investigated in ApoE(-)(/)(-) and ApoE(+)(/)(+) mice. Fifty-four ApoE(-)(/)(-) mice were fed either an atherogenic diet (AGD) or a normal diet (ND) beginning at 5 weeks of age. Eighteen Apo-E wild-type (ApoE(+)(/)(+)) mice were fed an ND. Two groups of ApoE(-)(/)(-) mice (n=12 each group) on AGD and ND were imaged three times with (99m)Tc-TFI and a high-resolution SPECT system at 20-25, 30-40, and 48-52 weeks to study the evolution of atherosclerotic plaque.

RESULTS

Focal radioactive accumulations in the aortic arch region were observed in the ApoE(-)(/)(-) mice (n=12) on AGD but not in the ApoE(+)(/)(+) mice on ND (n=10). Apo-E(-)(/)(-) mice on ND (n=11) exhibited lower radioactive uptake than ApoE(-)(/)(-) mice on AGD (P<0.05). Co-injection of an excess of cold ligand with (99m)Tc-TFI resulted in significant reduction of (99m)Tc-TFI uptake in the ApoE(-)(/)(-) mice on AGD. Longitudinal studies showed that (99m)Tc-TFI uptake in the aortas of ApoE(-)(/)(-) mice progressively increased from 20 to 48 weeks. Real-time PCR assays demonstrated that atherosclerotic aortas expressed significantly higher IL-1β and TNF-α than the aortas from wild-type controls.

CONCLUSIONS

Atherosclerotic plaques were detected by (99m)Tc-TFI imaging in ApoE(-)(/)(-) mice. (99m)Tc-TFI is promising for specific detection of inflammatory response in atherosclerotic plaques.

5TNF-α and IL-1β neutralization ameliorates angiotensin II-induced cardiac damage in male mice

Inflammation is a key event in hypertensive organ damage, and TNF-α and IL-1β are elevated in hypertension. In this study, we evaluated the effects of TNF-α and IL-1β elevation on hypertensive cardiac damage by treatment with a bifunctional inflammatory inhibitor, TNF receptor 2-fragment crystalization-IL-1 receptor antagonist (TFI), which can neutralize these 2 cytokines simultaneously. A mouse hypertension model of angiotensin II (Ang II) infusion (1500 ng/kg·min for 7 d) was induced in wild-type mice. TNF-α and IL-1β were inhibited by TFI administration (5 mg/kg, every other day), the effects of inhibition on cardiac damage were examined, and its mechanism on inflammatory infiltration was further studied in vivo and in vitro. Ang II infusion induced cardiac injury, including increased macrophage infiltration, expression of inflammatory cytokines (IL-12, IL-6, etc), and cardiac fibrosis, such as elevated α-smooth muscle actin, collagen I, and TGF-β expression. Importantly, the Ang II-induced cardiac injury was suppressed by TFI treatment. Moreover, TFI reduced the expression of adhesion molecules (intercellular adhesion molecule-1 and vascular cell adhesion molecule-1) and monocyte chemotactic protein-1 expression in Ang II-treated hearts. Additionally, blockade of TNF-α and IL-1β by TFI reduced monocyte adherence to endothelia cell and macrophage migration. This study demonstrates that blocking TNF-α and IL-1β by TFI prevents cardiac damage in response to Ang II, and targeting these 2 cytokines simultaneously might be a novel tool to treat hypertensive heart injury.

SPECT imaging of inflammatory response in ischemic-reperfused rat hearts using a 99mTc-labeled dual-domain cytokine ligand

Soluble tumor necrosis factor (TNF) receptor-2 (TNFR2) and interleukin-1 receptor antagonist (IL-1ra) were fused to the Fc portion of IgG1 using recombinant DNA technology. The resulting dual-domain cytokine ligand, TNFR2-Fc-IL-1ra, specifically binds to TNF and to the type I IL-1 receptor (IL-1RI). This study was designed to characterize the kinetic profile of (99m)Tc-labeled TNFR2-Fc-IL-1ra (TFI) for imaging inflammatory response in an ischemic-reperfused (IR) rat heart model.

METHODS

The IR model was created by ligating the left coronary artery for 45 min, followed by 2-h reperfusion. Cardiac SPECT images of TFI in the IR model (n = 6) were dynamically acquired for 3 h. Correlative data of myocardial TFI distribution versus microsphere-determined tissue blood flow were acquired in 3 extra IR hearts. Inflammation targeting affinity of TFI was compared with 2 individual cytokine radioligands, (99m)Tc-IL-1ra-Fc (IF) and (99m)Tc-TNFR2-Fc (TF) (n = 6 each group). Myocardial cytokine expression was evaluated by immunochemical assay.

RESULTS

Increased TFI uptake was found in the ischemic area and correlated with the severity of ischemia. At 3 h after injection, the ratio of hot-spot accumulation in the ischemic area to a remote viable zone was 5.39 ± 1.11 for TFI, which was greater than that for IF (3.28 ± 0.81) and TF (3.29 ± 0.75) (P < 0.05). The in vivo uptake profiles of TFI, TF, and IF were consistent with ex vivo radioactive measurements and correlated with upregulated IL-1 and TNF expression.

CONCLUSION

The dual-domain TFI is promising for noninvasive detection of inflammatory reactions in IR myocardium because of its more potent affinity to the inflammatory sites compared with TF and IF.