EGFR806-CAR T cells selectively target a tumor-restricted EGFR epitope in glioblastoma.

Targeting solid tumor antigens with chimeric antigen receptor (CAR) T cell therapy requires tumor specificity and tolerance toward variability in antigen expression levels. Given the relative paucity of unique cell surface proteins on tumor cells for CAR targeting, we have focused on identifying tumor-specific epitopes that arise as a consequence of target protein posttranslational modification. We designed a CAR using a mAb806-based binder, which recognizes tumor-specific untethered EGFR. The mAb806 epitope is also exposed in the EGFRvIII variant transcript. By varying spacer domain elements of the CAR, we structurally tuned the CAR to recognize low densities of EGFR representative of non-gene amplified expression levels in solid tumors. The appropriately tuned short-spacer 2nd generation EGFR806-CAR T cells showed efficient in vitro cytokine secretion and glioma cell lysis, which was competitively blocked by a short peptide encompassing the mAb806 binding site. Unlike the nonselective Erbitux-based CAR, EGFR806-CAR T cells did not target primary human fetal brain astrocytes expressing wild-type EGFR, but showed a similar level of activity compared to Erbitux-CAR when the tumor-specific EGFRvIII transcript variant was overexpressed in astrocytes. EGFR806-CAR T cells successfully treated orthotopic U87 glioma implants in NSG mice, with 50% of animals surviving to 90 days. With additional IL-2 support, all tumors were eradicate without recurrence after 90 days. In a novel human induced pluripotent stem cell (iPSC)-derived teratoma xenograft model, EGFR806-CAR T cells infiltrated but were not activated in EGFR+ epidermal cell nests as assessed by Granzyme B expression. These results indicate that EGFR806-CAR T cells effectively and selectively target EGFR-expressing tumor cells.

Embolization of carotid-cavernous fistula via direct percutaneous puncture of the inferior ophthalmic vein.

Carotid-cavernous fistulas (CCFs) are anomalous connections between the carotid circulation and the cavernous sinus, and may cause significant morbidity. Endovascular treatment of these lesions can be challenging if typical transvenous routes are inaccessible. We describe a case of a Barrow type D carotid-cavernous fistula in which transvenous embolization was attempted via the inferior petrosal sinus (IPS). No connection was found to the fistula, and the superior ophthalmic vein (SOV) was thrombosed. A novel direct percutaneous puncture of the IOV was performed with ultrasound guidance showing that this is a safe alternative route of CCF access and embolization when the IPS and SOV are inaccessible.