BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95...

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BIPN 148 Lecture 13

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Transcript of BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95...

Page 1: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

BIPN 148 Lecture 13

Page 2: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Biochemical Basis of LTP

Page 3: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Interaction Between AMPAR, Stargazin, and PSD-95

Stargazin interacts with AMPA receptors in an intracellular compartment in the cell and promotes their delivery to the cell surface. The carboxyl terminus of stargazin binds specifically to the anchor protein PSD-95 and mediates recruitment of the stargazin-AMPA receptor complex to postsynaptic sites.

Page 4: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Loss of AMPA current in stargazer mutant mice

(recordings from cerebellar granule neurons)

Page 5: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Stargazin enhances glutamate response

Page 6: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Stargazin restores AMPA currents in mutants

(Stargazin-deltaC restores surface expression, but not synaptic targeting)

Page 7: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

PSD95 and Stargazin have distinct effects on synaptic responses and surface AMPA receptors

Page 8: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Stargazin-deltaC inhibits AMPA responses

Page 9: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Stargazin increases AMPA channel openings

Page 10: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Role of GluR1 trafficking in fear conditioning: Physiology of GluR1 transfected neurons in Amygdala

Page 11: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Expression of GluR1-C inhibits plasticityin Amygdala

Page 12: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Expression of GluuR1-C inhibits fear conditioning

Page 13: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

CaMKII delivers GluR1 to silent synapses

Page 14: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

CaMKII effect requires T887

Page 15: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Effect of GluR1 S887A (C tail) on LTP

Page 16: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

Stargazin increases surface GluR1 expression

Page 17: BIPN 148 Lecture 13. Biochemical Basis of LTP Interaction Between AMPAR, Stargazin, and PSD-95 Stargazin interacts with AMPA receptors in an intracellular.

GluR1-C tail expression inhibits LTP


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