ocrampal/organism
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
c7fc35e3b79e5616be2703d097eff63e2a2537b1
organism/neuron/DEV-N.md
T
ocrampal 8d8effaf05 Initial commit
2026-03-07 12:26:39 +01:00

204 lines
5.5 KiB
Markdown
Raw Blame History

This file contains ambiguous Unicode characters
This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.
# DEV-N: Modulator
Neuron Development - LTP-LTD Behavior:
Il DEV-N lavora durante Night a tempi lunghi rispetto a BEH-N. In pratica cambia la forma delle possibilita di BEH-N.
Il DEV contiene quei behavior di modulazione che cambiano la somma (fullness + active). La modulazione DEV aumenta/diminuisce (fullness + active). Ovvero ce creazione di nuova “forma” di possibilita.
This is critical for long-term presynaptic changes. The postsynaptic cell, upon detecting specific activity patterns (like those for LTP/LTD), releases chemical signals that travel backwards to the presynaptic terminal, instructing it to change.
- For Presynaptic Strengthening (e.g., un LTP):
- Nitric Oxide (NO): A gas that diffuses freely. During postsynaptic LTP induction (strong NMDAR activation), neuronal NO synthase (nNOS) is activated. NO diffuses into the presynaptic terminal and activates soluble guanylyl cyclase (sGC), raising cGMP levels. This enhances vesicle release via PKG, contributing to presynaptic LTP.
- Endocannabinoid-Mediated LTP (eLTP): In some synapses, a postsynaptic depolarization triggers production of endocannabinoids (e.g., 2-AG). These bind to presynaptic CB1 receptors, but surprisingly, can initiate a signaling cascade (involving cAMP/PKA) that increases Pr for a long period.
- Neurotrophins (BDNF): Released from the postsynapse in an activity-dependent manner. Presynaptic TrkB receptors activate pathways (PI3K, MAPK) that enhance vesicle docking and Pr.
- For Presynaptic Weakening (e.g., LTD):
- Classical Endocannabinoid-Mediated LTD (eCB-LTD): More common. Moderate postsynaptic activity (mGluR activation or moderate Ca²⁺ rise) triggers 2-AG release. 2-AG binds presynaptic CB1 receptors, which inhibit VGCCs and directly inhibit the release machinery via Gi/o protein signaling, reducing Pr for a long time.
- Other Lipid Mediators (like LPA) can also act as retrograde signals for depression.
Augmentation:
- Calcium-sensing proteins (Munc13) alter release probability (1-10s range). How?
Upregulation:
- NO/BDNF activates cascades that increase P_r, promote synaptic growth (facilitates LTP). How?
- VGCC TUN
- Potassium channel modulation ??
Downregulation:
- eCBs bind CB1 receptors, inhibit VGCCs, activate K⁺ channels → profound decrease in P_r (DSE/DSI - depolarization-induced suppression)
- CB1 receptor activation (by eCBs)
- Retrograde BDNF (brain-derived neurotrophic factor)
> Night Time Scale
```Gen
modulator: DEV-N
contained_by: N
```
## DEV-RF: Modulator
Perche mettiamo RF in DEV e non in TUN?
```Gen
modulator: DEV-RF
contained_by: DEV-N
```
### DEV-PRE-VesciclesRecycling-RF: Modulator
```Gen
modulator: DEV-PRE-VesciclesRecycling-RF
contained_by: DEV-RF
modulates: BEH-PRE/episode/VesciclesRecycling
# each BEH-PRE is modulated!
tub_dev:
- fulMod ( fullness: None, active: rf/fullness, emptiness: 0x )
- actMod ( fullness: None, active: rf/active, emptiness: 0x )
# qui stiamo modulando l'active di RF mantenendolo fra fullness e
# emptiness dichiarato in VesciclesRecycling
tub_local:
tub_intricated:
- Nox ( contained_by: BEH-POST )
- Ecb ( contained_by: BEH-POST )
```
#### Context
#### Episode
### DEV-PRE-VesiclesFillingRP-RF: Modulator
```Gen
modulator: DEV-PRE-VesiclesFillingRP-RF
contained_by: DEV-RF
modulates:
tub_local:
tub_intricated:
- Nox ( contained_by: BEH-POST )
- Ecb ( contained_by: BEH-POST )
```
#### Context
#### Episode
### DEV-PRE-LactateAtp-RF: Modulator
```Gen
modulator: DEV-PRE-LactateAtp-RF
contained_by: DEV-RF
modulates:
tub_local:
tub_intricated:
- Nox ( contained_by: BEH-POST )
- Ecb ( contained_by: BEH-POST )
```
#### Context
#### Episode
## DEV-FULL: Modulator
Perche mettiamo Full in DEV e non in TUN?
```Gen
modulator: DEV-FULL
contained_by: DEV-N
```
### DEV-PRE-CA2+-FULL: Modulator
```Gen
modulator: DEV-PRE-CA2+-FULL
contained_by: DEV-FULL
modulates: BEH-PRE/tub/Ca2+ # this is the tub whose "full" must be modulated
tub_dev:
- fullMod ( fullness: 100x, active: Ca2+/fullness, emptiness: 50x ) # Ca2+Full "contains" a number of blocks equal to the current Full.
# qui stiamo modulando la fullness di Ca2+, associandola ad
# active di fullMod. Cambiando active di fullMod,
# si cambia la fullness di Ca2+
tub_local:
tub_intricated:
- Nox ( contained_by: BEH-POST )
- Ecb ( contained_by: BEH-POST )
```
#### Context
***Tens Milliseconds Time Scale***
```Gen
context: CheckPreTubCa2+
contained_by: DEV-PRE-FULL-CA2+
in_context: Fixed
rf: 60x
condition: ( empty )
out_context: DecreaseFull
condition: NOT ( empty ) AND NOT ( Ca2+ full )
out_context: Nothing
condition: ( full)
out_context: IncreaseFull
```
#### Episode
```Gen
episode: VgccOpen
contained_by: DEV-PRE-FULL-CA2+
in_context: DecreaseFull
rf: 1x
hypothesis: NOT ( full ) AND NOT ( empty )
action: [ increase, decrease]
trace: None
```
### DEV-PRE-RRP-FULL: Modulator
```Gen
modulator: DEV-PRE-RRP-FULL
contained_by: DEV-FULL
modulates: BEH-PRE/tub/Rrp # this is the tub whose "full" must be modulated
tub_dev:
- fullMod ( fullness: 100x, active: Rrp/fullness, emptiness: 50x ) # RrpFull "contains" a number of blocks equal to the current Full.
# qui stiamo modulando la fullness di Rrp, associandola ad
# active di fullMod. Cambiando active di fullMod,
# si cambia la fullness di Rrp
tub_local:
tub_intricated:
- Nox ( contained_by: BEH-POST )
- Ecb ( contained_by: BEH-POST )
```
#### Context
#### Episode
Reference in New Issue View Git Blame Copy Permalink