Induction of LTP

Factors modulating LTP
Anlagen:
- Modulation of LTP
1. Endogenous modulatorrs
  1. Ach
  2. NA
  3. DA
  4. 5-HT
  5. Cannabinoids
  6. glutamate/ GABA
  7. Corticosteriods
2. Glial cells
3. Other
  Anmerkungen:
  - Pregnance Smoking Stress Sleep Alzheimers Alcohol Exercise Schizo Gender Cannabis Depression Sex Autisim
  1. STRESS
    1. NA
    2. Corticosteriods
Induction
1. Induction protocols
  Anlagen:
  - Techniques in synaptic plasticity
  1. Pairing
    Anmerkungen:
    - single stimuli repeated at low frequency are paired with depolarizing pulses that induce brisk firing of the recorded cell
    1. Isaac et al (1995)
      Anmerkungen:
      - paired stimulation lead to release of neurotransmitter coupled with depol, which leads to the insertion of receptors in the postsynaptic density
      1. LTP- silent synapses
      2. NMDAR-dependent
    2. Nakamura et al (2011)
      Anmerkungen:
      - dependent on the Ca influx
      1. LTD
    3. Wigström et al., 1986
      Anmerkungen:
      - demonstrated that low-frequency stimuli could induce LTP in single CA1 pyramidal cells if each stimulus was given in conjunction with a strong depolarizing pulse- association of a presynaptic stimulus with postsynaptic depolarisation
    4. spike timing-dependent potentiation (STDP)
      Anmerkungen:
      - the term was introduced by Song et al. (2000)
      1. Bi and Poo, 1998
        Anmerkungen:
        HPC- LTP can be induced by repeated pairing of an afferent stimulus with a single back-propagating action potential, provided the EPSP precedes the action potential by less than ~10 ms
        LTP= pre preceds post
        LTD- post preceds pre
      2. requires posysynaptic spiking
        Anmerkungen:
        not only does it require tight temporal contiguity of presynaptic and postsynaptic firing, but the back-propagating spike provides the associative signal that informs dendritic synapses that the postsynaptic cell has fired
      3. Backprobagation
        Stuart and Sakmann, 1994
        Anmerkungen:
        action potential in cortical pyramidal cells propagates back into the dendritic tree
    5. Abraham et al., 1986; Kelso et al., 1986
    6. activates NMDAR signalling
      1. Collingridge et al., 1988
        Anmerkungen:
        enabled NMDAR-mediated responses to be evoked by single stimuli
      2. Hvalby et al., 1987
        Anmerkungen:
        Pairing single stimuli with iontophoretic application of glutamate was similarly effective at inducing LTP
        pairing + glutamate
  2. Theta
    Anmerkungen:
    - high-freq stimulation in 5 bursts- similar to show AP occur normally- functionally relevant
    - theta rhythm (an endogenous hippocamapal rhythm generated during movement)- functionally significant
    1. avies et al., 1991
      1. mechanism
        feedforward GABA interneurons
        Anmerkungen:
        The priming stimulus (or initial brief train) activates feedforward GABA interneurons, leading to GABAA- and GABAB- mediated hyperpolarization in the pyramidal cell but, importantly, also to activation of presynaptic GABAB autoreceptors
        GABA(B) autoreceptors
        Anmerkungen:
        produce a transient reduction in GABA release that is maximal at around 100 to 200 ms. Thus the second train produces much less GABA-mediated hyperpolarization with consequent enhancement of the voltage-dependent NMDA receptor-mediated current
    2. occur naturally
      Anmerkungen:
      - Minimal patterns of stimulation of this kind are far more likely to occur naturally than the longer trains of tens or hundreds of stimuli (e.g., 100 Hz for 1 second) that are frequently used for reasons of convenience and custom.
    3. Hyman et al (2003)
      Anmerkungen:
      - when TBS was applied at the trough of theta EEG- LTD at the peak- LTP
    4. Lever et al (2010)
      Anmerkungen:
      - investigated theta phase of firing in principal cells in subiculum and CA1 as rats foraged in familiar and novel environments. We found that the preferred theta phase of firing in CA1, but not subiculum, was shifted to a later phase of the theta cycle during environmental novelty. Furthermore, the amount of phase shift elicited by environmental change correlated with the extent of place cell remapping in CA1. Our results support a relationship between theta phase and novelty-induced plasticity in CA1
  3. Tetanic
    Anmerkungen:
    - needs a long depol to induce LTP because NMDAR activation is slow- needs to remove Mg block etc
    1. Bliss and Gardner-Medwin (1973)
      Anmerkungen:
      - study of LTP in awake rabbits, the stimulus intensity during the tetanus must be sufficiently strong
      1. LTP induced above a certain intensity
    2. McNaughton et al. (1978)
      Anmerkungen:
      - gradually increased the intensity of tetanization to reveal that LTP occurred only above what they termed the “cooperativity” threshold. PTP was observed at lower intensities with the response amplitude declining to baseline between successive tetanizations
      1. cooperativity threshold
        Anmerkungen:
        stimulating a few fibres at a weak intensity
      2. (-) cooperativity not the only mechanism for induction
    3. one fibre
      Anmerkungen:
      - stimulating one fibre at a strong intensity
    4. Magnitude and during of LTP
      Anmerkungen:
      - a function of tetanus intensity
      1. eventual saturation
    5. common- 100 Hz for 1 second
    6. single stimuli of high intensity repeated at 1 Hz in the presence of picrotoxin
  4. primed-burst stimulation (PBS)
    Anmerkungen:
    - a brief burst of stimuli
    1. Davies et al (1991)
    2. occur naturally
  5. Theta vs high frequency
    1. Hernandez et al. (2005)
      Anmerkungen:
      - major factor controlling the magnitude of LTP is the number of stimuli in a train rather than the pattern of stimulation
      1. difference in early phase, but not late phase LTP
      2. number of pulses determine long-term LTP
2. Induction properties
  Anlagen:
  - Synaptic plasticity
  1. Coopertivity
    Anmerkungen:
    - see synaptic plasticity general
    1. Douglas and Goddard, 1975
  2. Associatvitiy
    1. discovered by
      1. McNaughton et al. (1978)
        medial and lateral perforant path projections to the ipsilateral dentate gyrus
        Anmerkungen:
        they found that when weak tetani were given simultaneously to the medial and lateral branches of the perforant path, LTP was induced in both pathways, though each tetanus, when given separately, was below the cooperativity threshold
      2. Levy and Steward (1979)
        weak- entorhinal-contralateral DG
        Anmerkungen:
        perforant pathway- weak projection
        Tetanic stimulation
        Anmerkungen:
        incapable of inducing LTP when given alone; but if given at the same time as a tetanus to the strong ipsilateral perforant pathway, LTP was induced in both ipsilateral and contralateral pathways
        strong-ipsilateral
    2. Extracellular experiments
      1. DG- Levy and Steward, 1983
      2. CA1- Gustafsson and Wigström, 1986
        one “weak” and one “strong” input
        Anmerkungen:
        using a two-pathway protocol with one “weak” and one “strong” input also showed that associative potentiation of the weak pathway requires near-coincidence of weak and strong inputs, with potentiation occurring if the weak immediately precedes the strong input but not if the strong precedes the weak input
    3. function- memory
      Anmerkungen:
      - Because of its potential for strengthening co-active inputs, the property of associativity lies at the heart of the role that LTP is likely to play in memory functions of the hippocampus
  3. input-specific
    1. Andersen et al., 1977; Lynch et al., 1977
      Anmerkungen:
      - first obtained in area CA1 of the hippocampal slice in experiments using two stimulating electrodes positioned to activate two sets of fibers converging on the same cell population
    2. in neighboring synapses
      1. Haley et al. (1996)
        Anmerkungen:
        suggest that synapse specificity breaks down within a radius of a few tens of microns of a site of potentiation, regardless of whether synapses are on the same target cell or are active at the time of potentiation.
  4. Hebbian plasticity
    Anmerkungen:
    - Note that cooperativity, associativity, and input specificity can all be explained on the assumption that the induction of LTP at a given synapse requires presynaptic activity with coincident activation of the postsynaptic neuron. This is very close to the criterion that Hebb proposed for the enhancement of synaptic strength in hypothetical neural circuits mediating associative conditioning (Hebb, 1949).
3. Hebbian induction rule
  Anmerkungen:
  - requires a tight coincidence of presynaptic and postsynaptic activity- A synapse will be potentiated if, and only if, it is active at a time when its dendritic spine is sufficiently depolarized
  1. Molecular mechanisms
    1. Ca2+ hypothesis
      1. Rise in Ca is required
        Lynch et al., 1983
        Ca chelator EGTA
        Anmerkungen:
        into CA1 pyramidal cells blocks the induction of LTP using Intracellular recordings- intracellular electrode contained Ca buffer EGTA
        Malenka et al. (1992)
        caged Caused
        Anmerkungen:
        used a caged form of the calcium chelator BAPTA, from which Ca can be rapidly released by a flash of ultraviolet light >>to establish that the obligatory rise in calcium is confined to a window of less than 2.0 to 2.5 seconds following the tetanus.
        Ca rise- 2s following tetanus
        Zalutsky and Nicoll (1990)
        Ca chealtor blocks LTP induction
      2. mechanism of Ca rise?
        Anmerkungen:
        The mechanisms of Ca could also be not NMDAR mediated, but activated by different mechanisms
        Ca release from intracellular stores
        Harvey and Collingridge, 1992
        CA1- block refill of store- block induction
        Anmerkungen:
        thapsigargin, which prevents the refilling of these stores, can block the induction but not the expression of LTP at CA1 synapses
        Ca-induced Ca release
        Anmerkungen:
        these data suggest that Ca2-induced Ca2 release can greatly augment the Ca2 signal that permeates NMDA receptors and may be involved in the induction of LTP.
        Obenaus et al., 1989
        ryanodine receptor inhibitor, blocks induction of LTP
        Anmerkungen:
        Ca2 may be released from stores via the generation of inositol trisphosphate (IP3) and/or via Ca2-induced Ca2 release media by IP3 and/or ryanodine receptors
        Alford et al (1993)
        Anmerkungen:
        tetanic stimulation was shown to elicit a large NMDA receptordependent Ca2 signal at synapses that was substantially inhibited by either thapsigargin or ryanodine
        Other?- not studied
        Anmerkungen:
        Ca2 release from intracellular stores may be induced by other mechanisms, for example via activation of voltage-gated Ca2 channels, phospholipase C (PLC)-coupled receptors, or otherCa2-permeable ligand-gated channels. Any of these pathscould, in theory, induce NMDAR-dependent LTP without activating the normal induction trigger, the NMDA receptor itself.
        Ca entry via VGCCs
        Anmerkungen:
        enables NMDAR independent LTP voltage-gated Ca channels (VGCCs)
        Difficult to test
        Anmerkungen:
        1. using a voltage clamp experiments which clamps only voltage-gated Ca channels, but a perfect clamp of synapses located on dendritic spines is not achievable. 2. pharmacological block of VGCCs is also problematic as certain types are required for neurotransmitter release
        activate VGCC via depol
        Anmerkungen:
        activate VGCCs by intracellular depolarization, in the absence of evoked synaptic transmission
        Wyllie and Nicoll, 1994
        Anmerkungen:
        This generally does not induce LTP unless phosphatases are also blocked
        may be important, but not necessary
        Anmerkungen:
        It is possible that Ca entry via VGCCs could trigger LTP if there is sufficient influx in Ca, however in synapses a sufficient influx is unlikely to occur without the simultaneous activation of NMDAR
        Grover and Teyler, 1990).
        Anmerkungen:
        higher frequencies during tetanization (e.g., 200 Hz) promote NMDAR-independent LTP in the Schaffer-commissural pathway But this is not necessarily a VGCCs induced, could be other mechanisms
        L-type Ca channels
        Cav1.2 mutant mice
        Anmerkungen:
        mice mutant inactivation of this isoform do not display NMDA receptor-independent LTP
    2. Receptors
      1. NMDAR
        Evidence for its role in induction of LTP
        genetically engineered mice
        Tsien et al. (1996)
        cre-lox
        NMDAR1 deletion- blocked induction
        Anmerkungen:
        a deletion of NMDAR1 (the obligatory subunit of the NMDA receptor) in area CA1 but not in the dentate gyrus. Slices from these animals showed no LTP in CA1 but normal LTP in the dentate gyrus
        Sprengel et al. (1998)
        C-terminal of NR2 subunit deleted
        Anmerkungen:
        gene-targeted deletion of NMDAR subunit in mice >> still able to pass Ca currents
        blocked LTP induction
        Anmerkungen:
        The inability of these mutants to display LTP despite unaltered Ca2 current through the mutant receptor indicates that the NMDA receptor plays a further role in the genesis of LTP, downstream of its function as a Ca2-permeable ionophore. Transcriptional/ translational mechanisms
        Ca current unaltered
        APV blocks LTP induction
        Collingridge et al., 1983
        Anmerkungen:
        specific NMDA receptor antagonist APV blocked the induction in CA1 HPC, while having little or no effect on synaptic
        first evidence
        Lynch et al., 1983
        Anmerkungen:
        HPC- LTP induction is blocked using AP5 -but has no effect on pre-established LTP
        dual ligand and voltage dependence
        Anmerkungen:
        offers an elegant molecular mechanism for both the induction of LTP (Collingridge, 1985) and the properties of associativity and input specificity (Wigström and Gustafsson, 1985).q
        conditions for activation:
        Anmerkungen:
        presynaptic activity to release glutamate and strong postsynaptic depolarization to relieve the Mg2 block of the NMDA receptor channel
        presynaptic glutamate
        Ca is the trigger
        Anmerkungen:
        Because Ca2 is required for the induction of LTP (Lynch et al., 1983), and because activated NMDA receptor channels, unlike most ionotropic AMPA receptor channels, are highly permeable to calcium (MacDermott et al., 1986; Jahr and Stevens, 1987, 1993), it seems reasonable to conclude that the trigger for the induction of LTP is the entry of calcium ions through the channel associated with the NMDA receptor.
        See evidence for the role of Ca
        postsynaptic depol
        Ca is the trigger
        characteristics
        Ca permeable
        blocked by Mg
        Anmerkungen:
        at resting levels
        voltage-dependent
        Anmerkungen:
        which relies on the unblocking of Mg2+
        necessary for induction, but not sufficient
        Anmerkungen:
        although the evidence suggests that NMDAR activation is necessary for the induction of LTP, it may not always be sufficient Additional presynaptic and postsynaptic mechanisms may be needed for the induction and expression of LTP- for co-trigerring
        NMDAR/ glutamate alone
        Anmerkungen:
        neither NMDA (Kauer et al., 1988) nor glutamate (Hvalby et al., 1987), when applied alone to hippocampal slices, readily induces long-lasting potentiation
        subunits
        Anmerkungen:
        LTP was found to be more sensitive to NR2A/2B selective antagonists, whilst LTD was more sensitive to NR2C/D selective antagonists (Hrabetova et al., 2000).
        see hippocampus book 10.3.7
      2. GABA receptors
        Anmerkungen:
        Theoretically, many neurotransmitters and neuromodulators could interact with the LTP induction process via an effect on GABA inhibition. For example, it has been shown that endocannabinoids released from pyramidal neurons can depress GABA inhibition, which can result in the facilitation of LTP
        Wigström and Gustafsson, 1983
        Anmerkungen:
        blockade of GABA inhibition can greatly facilitate the induction of NMDARdependent LTP
        GABA inhibition- facilitates induction of LTP
        GABA(A)
        Anmerkungen:
        leads to rapid IPSP
        Herron et al., 1985
        Anmerkungen:
        When GABAA receptors were blocked pharmacologically, an NMDAR-mediated synaptic response appeared during low-frequency stimulation in the presence of Mg2
        GABA(B) autoreceptor
        Anmerkungen:
        a slow mechanism leading to IPSP
        priming stimulus
        Davies et al (1991)
        Anmerkungen:
        GABA that is released in response to the priming stimulus feeds back to activate GABAB autoreceptors, which results in inhibition of subsequent GABA release. Thus, the priming stimulus releases a normal level of GABA, but the stimuli during the burst release considerably less GABA, which facilitates the synaptic activation of NMDA receptors on pyramidal neurons.
        GABA(B) anta
        Anmerkungen:
        when applied at concentrations that prevent the GABAB autoreceptor from operating and thereby maintain GABAA receptor-mediated inhibition, completely prevent induction of LTP by priming stimulation
        mechanism
        Anmerkungen:
        Normally, when an EPSP is evoked by stimulation of an afferent pathway, such as the Schaffer commissural projection, it is curtailed by a biphasic inhibitory postsynaptic potential (IPSP) comprising a rapid GABAA receptor-mediated component and a slower GABAB receptor-mediated component. The hyperpolarizing effect of the IPSP intensifies the Mg2 block of NMDARs, and this greatly limits the extent to which NMDARs contribute to the synaptic response.
      3. mGluRs
        Anmerkungen:
        metabotropic glutamate receptors
        mGluR anta- MCPG
        +
        Anmerkungen:
        MCPG blocked induction of LTP
        Bashir et al., 1993
        Anmerkungen:
        MCPG had no effect on basal synaptic transmission or the expression of LTP but completely inhibited the induction of LTP in a fully reversible manner
        block induction, not expression or STP
        Riedel and Reymann, 1993; Sergueeva et al., 1993; Richter-Levin et al., 1994
        -
        Anmerkungen:
        MCPG didnt block induction of LTP
        Manzoni et al., 1994; Selig et al., 1995b; Thomas and O’Dell, 1995; Martin and Morris, 1997
        Explanation for controversy
        Anmerkungen:
        MCPG-sensitive mGluRs may be necessary for the induction of LTP under certain, but not all, experimental conditions.
        Bortolotto et al., 1994
        Anmerkungen:
        activation of mGluRs did not have to occur at the same time as the tetanus that activated NMDA receptors
        molecular switch?
        Anmerkungen:
        Thus, the induction of LTP in one pathway prevented MCPG from inhibiting the induction of more LTP in the same pathway. The initial conditioning tetanus did not have to induce LTP, as a tetanus delivered in the presence of an NMDAR antagonist still produced the conditioning. This led to the proposal that the activation of mGluRs sets a “molecular switch” that negates the need for subsequent activation of mGluRs for induction of LTP in that pathway. Once activated, the switch remains set for at least several hours unless it is turned off by a depotentiating stimulus
        metaplasticity
        if mGluR was activated in the past, it will remain active for a period of time
        mGluR agonist- ACPD
        Bortolotto and Collingridge, 1993
        induce LTP without the STP phase
        Anmerkungen:
        A slow onset of potentiation
        slow onset of potentiation not prevented by NMDAR anta
        Anmerkungen:
        but it occluded NMDAR-dependent tetanus-induced LTP, suggesting convergence with the mechanisms underlying the expression of classical LTP
        mechanism
        release Ca from stores
        Anmerkungen:
        Theory- Group I mGluRs (mGluR1 and mGluR5) couple to phospholipase C, leading to the liberation of IP3, which acts on IP3 receptors to trigger Ca2 release from intracellular stores
        Theory- ACPD excites CA3 pyramidal cells sufficiently to depolarize CA1 neurons, which in turn may lead to the sensitization of intracellular Ca2 stores to the mGluR-triggered generation of IP3
        CA1- Bortolotto and Collingridge, 1995
        ACPD and MCPG- activate and inhibit mGluR1 and 5
        Rae et al., 2000
        Anmerkungen:
        depolarization of CA1 neurons greatly facilitates the Ca2- mobilizing response to group I mGluR agonists
        knockouts
        knockout mGluR1
        Anmerkungen:
        was reported either to inhibit (Aiba et al., 1994) or to have no effect (Conquet et al., 1994) on the induction of LTP
        mGluR7 knockout
        Anmerkungen:
        although LTP was normal in the mGluR7 knockout, there was a deficiency in STP (Bushell et al., 2002).
        presynaptic mGluRs play a role in this initial presynaptic form of plasticity, although developmental consequences of the loss of mGluR7 cannot be discounted
        block all mGluRs
        Anmerkungen:
        LY341495, a compound that can be used at high concentrations to block all known mGluRs (mGluR1-8), had no effect on LTP (Fitzjohn et al., 1998).
        The difference between the effects of MCPG and LY341495, which can demonstrated in the same pathway, suggests that either MCPG is acting on some receptor other than mGlu1-8 or that the blanket inhibition of mGluRs has effects that are different from the selective inhibition of some subunits
    3. CaMKII
      Anmerkungen:
      - Although there is general agreement that the induction of LTP is associated with a persistent ( 1 hour) phosphorylation of CaMKII, there is disagreement about whether the increase in enzyme activity is transient (Lengyel et al., 2004) or persistent (Fukunaga et al., 1995). CaMKII inhibitors have no effect on theinduction of LTP
      Anlagen:
      - Expression of LTP
TIme course of LTP
1. Onset
  1. (-) hard to determine because of PTP
    Anmerkungen:
    - because it is confounded by the extremely rapid onset of PTP
    1. study PTP in isolation
      Anmerkungen:
      - using trains subthreshold for LTP or in the presence of AP5, which blocks the induction of LTP without affecting PTP, and by making the assumption that LTP and PTP are independent processes, it is possible to dissect out the two processes
      1. trains subthreshold for LTP
      2. AP5- blocks LTP without affecting PTP
  2. CA1
    1. Hanse and Gustafsson, 1992
      1. begins within 2-3s
      2. peaks- 30s
      3. declines to a more stable value- 10-20min
  3. DG
    1. Hanse and Gustafsson, 1992
      1. in-vitro, tetanus induced
      2. peaks- 1-2min
      3. (-) confounded by stimulus protocol
        Anmerkungen:
        Estimates are confounded, however, by the possibility that onset kinetics are modulated by the test stimuli given to sample synaptic responses
2. How long it lasts depends on:
  1. stimulation protocol
  2. type of preparation
    1. (-) limited to the lifetime of preparation
    2. intact animals, DG
      1. a few days-years
  3. region of HPC
    1. LTP induction not successful everywhere
      1. stimulation protocol/ damaged preparation
        Anmerkungen:
        However, this may reflect an unhealthy or dialyzed cell or an inappropriate stimulus protocol for that synapse.
      2. Petersen et al. (1998)
        45% -75% of excitatory synapses in area CA1 can be potentiated
        Anmerkungen:
        not all synapses can be potentiated
        saturated synapses?
        Anmerkungen:
        Unpotentiable connections may represent synapses at which LTP has been saturated and that might therefore be more susceptible to LTD-inducing stimulation, but 63% of nonpotentiable connections in the experiments of Debanne et al. (1999) could not be depressed either
        10% to 20% don't exhibit synaptic plasticity

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Induction of LTP

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