Efficient Human Acute Myeloid Leukemia Targeting By Universal Chimeric Antigen Receptor T-Cells Via Combinatorial Use of Linkers

Chimeric antigen receptor (CAR) T-cells are genetically engineered T-cells with potent biocidal activity against respective target-expressing cells. Recently, CAR T-cells have been successfully used clinically to eradicate B cell-derived malignancies by targeting B-cell lineage specific surface antigens (e.g. CD19, BCMA). However, several limitations of current single-antigen targeting CAR T-cell therapies are becoming evident: a) low target tumor-antigen expression might lead to low CAR T-cell targeting efficacy; b) single antigen-targeting might lead to rapid selection of tumor cells with low or loss of antigen expression; c) single antigen-targeting does frequently not generate a high tumor-selectivity as tumor-antigens are frequently also expressed on healthy tissues; d) production of single-antigen CAR T-cells is time- and resource-consuming but results in effectors that target only one antigen; e) on-target off-tumor as well as off-target side-effects are difficult to control without terminally eliminating CAR T-cells in the recipient. While a-c) might be overcome by combinatorial tumor-antigen targeting, d-e) might be addressed by production of Universal CAR T-cells that recognize a specific tag on selective bridging molecules with short half-life. To address some of these limitations in principle, we have here developed universal CAR T-cells targeting fluorescein, as well as fluorescein-labeled antibody-constructs directed against several cell surface antigens, that would serve as versatile, combinatorial selective linkers and, upon target binding, also CAR T-cells activators. We then tested the system on human acute myeloid leukemia (AML) cell lines and primary patient AML blasts. Specifically, we engineered CAR T-cells, termed FluA-CAR T-cells, to display the anti-fluorescein engineered lipocalin FluA, which mediated recognition of randomly or site-specifically fluorescein-labeled antibodies in IgG or short half-life diabody (Db) format, directed against the frequently AML expressed antigens CD33, CD117 and CD371. Site-specific chemical modification methods and cysteine-tagged Db mediated the strongest AML killing results in vitro over a broad range of antibody concentrations. We then hypothesized that FluA-CAR T-cells, targeting AML cells via combinatorial use of linker molecules adapted to specific AML antigen-expression profiles, would allow to most efficiently eliminate AML cells in a dose- and timely-regulated fashion. To this end, we tested single and combinatorial use of fluoresceinated anti-CD117 Db and anti-CD371 Db on MOLM13 AML cell lines, engineered to be either CD117 highCD371 neg, CD117 negCD371 high, or CD117 highCD371 high. Indeed, combination of anti-CD117 and anti-CD371 Db-linkers, resulted in significantly improved MOLM13 cell lysis compared to equimolar concentrations of single agents in vitro (example figure). We then tested the same approach, targeting CD117 +CD371 + primary AML cells from two different patients, using either patient-derived or allogeneic FluA CAR T-cells. Again, the combinatorial use of linkers generated a significantly higher AML cell lysis than the use of single Db linkers. We thus here provide proof-of-concept for the generation of highly potent universal targeting FluA CAR T-cells from healthy donors and AML patients. By choosing suitable CAR-adaptors with respect to their conjugation chemistry and size, it is possible to tightly regulate CAR-T cell activity against CD33, CD117 and CD371 expressing AML cells and likely any tumor cell expressed antigen. Short half-life small molecule linkers will allow to control FluA CAR T-cell on-off activity and combinatorial use of linkers will allow to maximize anti-tumor activity and to minimize on-target off-tumor toxicity. Figure 1 Figure 1. Disclosures Myburgh: University of Zurich: Patents & Royalties: CD117xCD3 TEA. Neri: Philogen S.p.A.: Current Employment, Current equity holder in publicly-traded company, Divested equity in a private or publicly-traded company in the past 24 months, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties: Multiple patents on vascular targeting; ETH Zurich: Patents & Royalties: CD117xCD3 TEA. Manz: CDR-Life Inc: Consultancy, Current holder of stock options in a privately-held company; University of Zurich: Patents & Royalties: CD117xCD3 TEA.

The efficacy of a sumatriptan and naproxen combination pill in a patient with chronic migraines who discontinued triptan therapy in the past due to a self-reported poor response to sumatriptan monotherapy

A clinical decision report using: Mathew NT, Landy S, Stark S, et al. Fixed-dose sumatriptan and naproxen in poor responders to triptans with a short half-life. Headache. 2009;49(7):971-982. https://doi.org/10.1111/j.1526-4610.2009.01458.x for a patient with chronic migraines who had self-reported poor response to sumatriptan monotherapy.

Measurement of catestatin and vasostatin in wild boar Sus scrofa captured in a corral trap

Objective Our aim was to analyse the chromogranin A-derived peptides vasostatin and catestatin in serum from wild boar (Sus scrofa) captured in a corral trap. Acute capture-related stress quickly leads to a release of adrenalin and noradrenalin, but these hormones have a short half-life in blood and are difficult to measure. Chromogranin A (CgA), a glycoprotein which is co-released with noradrenalin and adrenalin, is relatively stable in circulation and the CgA-derived peptides catestatin and vasostatin have been measured in domestic species, but not yet in wildlife. Results Vasostatin and catestatin could be measured and the median (range) serum concentrations were 0.91 (0.54–2.86) and 0.65 (0.35–2.62) nmol/L, respectively. We conclude that the CgA-derived peptides vasostatin and catestatin can be measured in wild boar serum and may thus be useful as biomarkers of psychophysical stress.

Targeting the MYC Ubiquitination-Proteasome Degradation Pathway for Cancer Therapy

Deregulated MYC overexpression and activation contributes to tumor growth and progression. Given the short half-life and unstable nature of the MYC protein, it is not surprising that the oncoprotein is highly regulated via diverse posttranslational mechanisms. Among them, ubiquitination dynamically controls the levels and activity of MYC during normal cell growth and homeostasis, whereas the disturbance of the ubiquitination/deubiquitination balance enables unwanted MYC stabilization and activation. In addition, MYC is also regulated by SUMOylation which crosstalks with the ubiquitination pathway and controls MYC protein stability and activity. In this mini-review, we will summarize current updates regarding MYC ubiquitination and provide perspectives about these MYC regulators as potential therapeutic targets in cancer.

The Hantzsch reaction for nitrogen-13 PET: preparation of [13N]nifedipine and derivatives

Nitrogen-13 is an attractive but under-used PET radionuclide for labelling molecules of biological and pharmaceutical interest, complementing other PET radionuclides. Its short half-life (t1/2 = 9.97 min) imposes synthetic challenges,...

Advances in 211At production at Texas A&M University

Alpha emitting radionuclides with medically relevant half-lives are interesting for treatment of tumors and other diseases because they deposit large amounts of energy close to the location of the radioisotope. Researchers at the Cyclotron Institute at Texas A&M University are developing a program to produce 211At, an alpha emitter with a medically relevant half-life. The properties of 211At make it a great candidate for targeted alpha therapy for cancer due to its short half-life (7.2 h). Astatine-211 has now been produced multiple times and reliability of this process is being improved.

Facile synthesis of dendrimer like mesoporous silica nanoparticles to enhance targeted delivery of interleukin-22

Interleukin (IL)-22 is a multifunctional cytokine with a very short half-life (~30 min) that activates STAT3 and can elicit strong anti-inflammatory effects in the intestine but can induce inflammation in...

Effects of Cyclization on Activity and Stability of α-Conotoxin TxIB

α-Conotoxin TxIB specifically blocked α6/α3β2β3 acetylcholine receptors (nAChRs), and it could be a potential probe for studying addiction and other diseases related to α6/α3β2β3 nAChRs. However, as a peptide, TxIB may suffer from low stability, short half-life, and poor bioavailability. In this study, cyclization of TxIB was used to improve its stability. Four cyclic mutants of TxIB (cTxIB) were synthesized, and the inhibition of these analogues on α6/α3β2β3 nAChRs as well as their stability in human serum were measured. All cyclized analogues had similar activity compared to wild-type TxIB, which indicated that backbone cyclization of TxIB had no significant effect on its activity. Cyclization of TxIB with a seven-residue linker improved its stability significantly in human serum. Besides this, the results showed that cyclization maintained the activity of α-conotoxin TxIB, which is conducive to its future application.