by Keyword: Dependence
Chuchkova, Liubov, Bodenstedt, Sven, Picazo-Frutos, Roman, Eills, James, Tretiak, Oleg, Hu, Yinan, Barskiy, Danila A, de Santis, Jacopo, Tayler, Michael C D, Budker, Dmitry, Sheberstov, Kirill F, (2023). Magnetometer-Detected Nuclear Magnetic Resonance of Photochemically Hyperpolarized Molecules Journal Of Physical Chemistry Letters 14, 6814-6822
Photochemically induced dynamic nuclear polarization (photo-CIDNP) enables nuclear spin ordering by irradiating samples with light. Polarized spins are conventionally detected via high-field chemical-shift-resolved NMR (above 0.1 T). In this Letter, we demonstrate in situ low-field photo-CIDNP measurements using a magnetically shielded fast-field-cycling NMR setup detecting Larmor precession via atomic magnetometers. For solutions comprising mM concentrations of the photochemically polarized molecules, hyperpolarized 1H magnetization is detected by pulse-acquired NMR spectroscopy. The observed NMR line widths are about 5 times narrower than normally anticipated in high-field NMR and are systematically affected by light irradiation during the acquisition period, reflecting a reduction of the transverse relaxation time constant, T2*, on the order of 10%. Magnetometer-detected photo-CIDNP spectroscopy enables straightforward observation of spin-chemistry processes in the ambient field range from a few nT to tens of mT. Potential applications of this measuring modality are discussed.
JTD Keywords: field-dependence, mechanism, nmr, parahydrogen, photo-cidnp, polarization, quinone, spin-hyperpolarization, Radical-pair
Manzano-Muñoz, A, Alcon, C, Menéndez, P, Ramírez, M, Seyfried, F, Debatin, KM, Meyer, LH, Samitier, J, Montero, J, (2021). MCL-1 Inhibition Overcomes Anti-apoptotic Adaptation to Targeted Therapies in B-Cell Precursor Acute Lymphoblastic Leukemia Frontiers In Cell And Developmental Biology 9, 695225
Multiple targeted therapies are currently explored for pediatric and young adult B-cell precursor acute lymphoblastic leukemia (BCP-ALL) treatment. However, this new armamentarium of therapies faces an old problem: choosing the right treatment for each patient. The lack of predictive biomarkers is particularly worrying for pediatric patients since it impairs the implementation of new treatments in the clinic. In this study, we used the functional assay dynamic BH3 profiling (DBP) to evaluate two new treatments for BCP-ALL that could improve clinical outcome, especially for relapsed patients. We found that the MEK inhibitor trametinib and the multi-target tyrosine kinase inhibitor sunitinib exquisitely increased apoptotic priming in an NRAS-mutant and in a KMT2A-rearranged cell line presenting a high expression of FLT3, respectively. Following these observations, we sought to study potential adaptations to these treatments. Indeed, we identified with DBP anti-apoptotic changes in the BCL-2 family after treatment, particularly involving MCL-1 – a pro-survival strategy previously observed in adult cancers. To overcome this adaptation, we employed the BH3 mimetic S63845, a specific MCL-1 inhibitor, and evaluated its sequential addition to both kinase inhibitors to overcome resistance. We observed that the metronomic combination of both drugs with S63845 was synergistic and showed an increased efficacy compared to single agents. Similar observations were made in BCP-ALL KMT2A-rearranged PDX cells in response to sunitinib, showing an analogous DBP profile to the SEM cell line. These findings demonstrate that rational sequences of targeted agents with BH3 mimetics, now extensively explored in clinical trials, may improve treatment effectiveness by overcoming anti-apoptotic adaptations in BCP-ALL.
JTD Keywords: apoptosis, bh3 mimetics, cancer, dependence, increases, kinase inhibition, pediatric leukemia, precision medicine, resistance, sensitivity, targeted therapies, tumor-cells, venetoclax, Apoptosis, Bcl-2 family proteins, Bh3 mimetics, Pediatric leukemia, Resistance, Targeted therapies
Diez-Perez, Ismael, Hihath, Joshua, Hines, Thomas, Wang, Zhong-Sheng, Zhou, Gang, Mullen, Klaus, Tao, Nongjian, (2011). Controlling single-molecule conductance through lateral coupling of [pi] orbitals Nature Nanotechnology , 6, (4), 226-231
In recent years, various single-molecule electronic components have been demonstrated(1). However, it remains difficult to predict accurately the conductance of a single molecule and to control the lateral coupling between the pi orbitals of the molecule and the orbitals of the electrodes attached to it. This lateral coupling is well known to cause broadening and shifting of the energy levels of the molecule; this, in turn, is expected to greatly modify the conductance of an electrodemolecule- electrode junction(2-6). Here, we demonstrate a new method, based on lateral coupling, to mechanically and reversibly control the conductance of a single-molecule junction by mechanically modulating the angle between a single pentaphenylene molecule bridged between two metal electrodes. Changing the angle of the molecule from a highly tilted state to an orientation nearly perpendicular to the electrodes changes the conductance by an order of magnitude, which is in qualitative agreement with theoretical models of molecular pi-orbital coupling to a metal electrode. The lateral coupling is also directly measured by applying a fast mechanical perturbation in the horizontal plane, thus ruling out changes in the contact geometry or molecular conformation as the source for the conductance change.
JTD Keywords: Junction conductance, Electron-transport, Interface, Dependence, Mechanism, Length