Browsing by Author "Cable, Chloe"
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Item Modulation of the Junctional Conductance of Retinal AII Amacrine Cell Electrical Synapses(2023-10) Cable, ChloeRetinal AII amacrine cells are extensively coupled together by electrical synapses. Changes to the strength of these synapses affect how signals are routed through rod and cone retinal pathways during scotopic and photopic vision. Plasticity at these electrical synapses have not, to date, been characterized using electrophysiological approaches. We investigated the effects of adenosine (AR) and N-methyl-D-aspartate receptor (NMDAR) activation on the electrical coupling between AII cells using dual whole-cell patch-clamp electrophysiology in mouse retinal slices. While neither AR activation nor inhibition affected junctional conductance, NMDAR activation substantially decreased junctional conductance between AII cells. Relieving the Mg2+ block of NMDARs through bath application of Mg2+-free solution or by depolarizing AII cells to 0 mV reduced junctional conductance. Exogenous application of NMDA decreased conductance between cells, a decrease which was blocked by the non-selective NMDAR antagonist APV but not by Ro 25-6981, a selective GluN2B-NMDAR antagonist. Addition of either D-serine or glycine, both NMDAR coagonists, without NMDA, reduced the junctional conductance and addition of either coagonist to NMDA-treated retinas further decreased conductance. Experiments were conducted in inositol 1,4,5-trisphosphate receptor type 2 KO and serine racemase KO mice and in WT mice with D-amino acid oxidase to reduce retinal D-serine levels. Under these conditions, the NMDA-mediated conductance decrease was maintained, indicating that D-serine is not necessary for NMDAR-mediated plasticity. These results demonstrate that NMDAR activation results in a decrease in electrical coupling between AII amacrine cells and suggests that both D-serine and glycine can serve as NMDAR coagonists for this plasticity.Item Ramsey County Environmental Response Fund Impact Study(Resilient Communities Project (RCP), University of Minnesota, 2019) Agyei-Boakye, Oforiwaa Pee; Banerjee, Saikat; Cable, Chloe; Newhoff, Morgan; Peng, Changwei; Yuan, CeThis project was completed as part of the 2018-2019 Resilient Communities Project (rcp.umn.edu) partnership with Ramsey County. Ramsey County collects a small percentage of the mortgage registry and deed tax to help fund the clean-up of contaminated land. This Environmental Response Fund (ERF) is leveraged with private investment and other public funding for redevelopment projects within the county. Since the program’s inception, 22 projects have received $5.7 million in funding and 200 acres have been remediated. Although the fund has been successful in cleaning up brownfields, little was known about the broader outcomes of the redevelopment projects completed after 2012, the last time an impact assessment was undertaken. Ramsey County Project Lead Mary Lou Egan worked with students in the Economic Development Fellows Consulting Program to evaluate the impact of ERF projects in terms of public and private investment leveraged, tax revenue generated, and jobs and housing units generated, and identified ways to strengthen and improve the program going forward. The students' final report and a poster summarizing the project are available.