Lydia Bickford scite author profile

In a presynaptic nerve terminal, synaptic vesicle exocytosis is restricted to specialized sites called active zones. At these sites, neurotransmitter release is determined by the number of releasable vesicles and their probability of release. Proteins at the active zone set these parameters by controlling the presynaptic Ca 2ϩ signal, and through docking and priming of synaptic vesicles. Vertebrate ELKS proteins are enriched at presynaptic active zones, but their functions are not well understood. ELKS proteins are produced by two genes in vertebrates, and each gene contributes ϳ50% to total brain ELKS. We generated knock-out mice for ELKS1 and found that its constitutive removal causes lethality. To bypass lethality, and to circumvent redundancy between ELKS1 and ELKS2 in synaptic transmission, we used a conditional genetic approach to remove both genes in cultured hippocampal neurons after synapses are established. Simultaneous removal of ELKS1 and ELKS2 resulted in a 50% decrease of neurotransmitter release at inhibitory synapses, paralleled by a reduction in release probability. Removal of ELKS did not affect synapse numbers or their electron microscopic appearance. Using Ca 2ϩ imaging, we found that loss of ELKS caused a 30% reduction in single action potential-triggered Ca 2ϩ influx in inhibitory nerve terminals, consistent with the deficits in synaptic transmission and release probability. Unlike deletion of the active zone proteins RIM, RIM-BP, or bruchpilot, ELKS removal did not lead to a measurable reduction in presynaptic Ca 2ϩ channel levels. Our results reveal that ELKS is required for normal Ca 2ϩ influx at nerve terminals of inhibitory hippocampal neurons.

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Investigations of Amino Acids in the ATP Binding Site of 5,10-Methenyltetrahydrofolate Synthetase

Tolley

Bickford

Clare

et al. 2012

Protein J

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5-Formyltetrahydrofolate is a compound that is administered as a rescue agent in methotrexate chemotherapy and in 5-fluorouracil chemotherapy for synergistic effects. It has also recently been suggested to play a role in bacterial resistance to antifolate therapy. 5,10-methenyltetrahydrofolate synthetase (MTHFS) is the only enzyme known to catalyze the conversion of this compound to 5,10-methenyltetrahydrofolate along with the hydrolysis of ATP to ADP. To better understand the roles of specific amino acids in the ATP binding pocket of this enzyme, we used site-directed mutagenesis to create 10 modified forms of the Mycoplasma pneumoniae ortholog. The Michaelis constant (K(m)) for each substrate and the turnover number (k(cat)) was determined for each mutant to help elucidate the role of individual amino acids. Data were compared to crystal structures of human and M. pneumoniae orthologs of MTHFS. Results were largely consistent with a simple coulombic and proximity model; the larger the predicted charges of an interaction and the closer those interactions were to the phosphate transferred between the substrates, the greater the reduction in ATP binding and catalytic activity of the enzyme.

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Lydia Bickford

The Active Zone Protein Family ELKS Supports Ca²⁺Influx at Nerve Terminals of Inhibitory Hippocampal Neurons

Investigations of Amino Acids in the ATP Binding Site of 5,10-Methenyltetrahydrofolate Synthetase

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Lydia Bickford

The Active Zone Protein Family ELKS Supports Ca2+Influx at Nerve Terminals of Inhibitory Hippocampal Neurons

Investigations of Amino Acids in the ATP Binding Site of 5,10-Methenyltetrahydrofolate Synthetase

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The Active Zone Protein Family ELKS Supports Ca²⁺Influx at Nerve Terminals of Inhibitory Hippocampal Neurons