Update 2026-06-02-astrocyte-behaviors.md
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@@ -96,6 +96,170 @@ Operating high-fidelity wave generators and vibrating resonators drains the syst
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# Pseudocode, organized by variable, influence, and time
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## global state variables
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// ─── FAST (ms–s) ─── INTERMEDIATE (s–min) ─── SLOW (h–days) ───
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// Presynaptic
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vesicle_release_prob // P(0.1–1.0) — baseline 0.2
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active_zone_size // docking slots — scales launchpad
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RRP_pool // readily-releasable pool (fast)
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reserve_pool // chained vesicles in deep storage
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presynaptic_Ca // [Ca²⁺] at active zone
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// Postsynaptic
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AMPA_count // surface receptors = sensitivity
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NMDA_Mg_block // bool — mechanical clamp on/off
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postsynaptic_Ca // [Ca²⁺] in spine — triggers LTP/LTD
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membrane_potential // Vm — depolarization state
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// Astrocyte
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glutamate_clearance_rate // EAAT transporter speed
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D_serine_release // gliotransmitter — NMDA co-agonist
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astro_Ca // internal Ca²⁺ wave state
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ECM_integrity // extracellular matrix density
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lactate_output // fuel export rate to neurons
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// Neuromodulators (global broadcast)
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dopamine_level // "save button" — validates LTP
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norepinephrine_level // arousal / signal-to-noise gain
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acetylcholine_level // attention — lowers LTP threshold
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## fast time scale — wave propagation (ms → s)
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function fire_action_potential(input_freq):
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// Presynapse: launch wavefront
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presynaptic_Ca += spike_influx(input_freq)
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released_vesicles = binomial(RRP_pool, vesicle_release_prob)
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glutamate_cleft = released_vesicles × quantal_content
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RRP_pool -= released_vesicles
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// Postsynapse: wavefront strikes resonator
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AMPA_current = glutamate_cleft × AMPA_count
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membrane_potential += AMPA_current
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// NMDA gate — needs coincidence (clamp check)
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if membrane_potential > -40mV and D_serine_release > threshold:
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NMDA_Mg_block = False // Mg²⁺ ejected — clamp unlocked
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postsynaptic_Ca += NMDA_influx(glutamate_cleft)
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// Astrocyte: vacuum up trailing echoes
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glutamate_cleft -= glutamate_clearance_rate × Δt
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lactate_output += glycolysis_rate(glutamate_clearance_rate)
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// Fuel consumed by post + pre to reset
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membrane_potential restored by NaK_ATPase(lactate_output)
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RRP_pool refilled by VATPase_pump(lactate_output)
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## intermediate time scale — temporary tuning (s → min)
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function short_term_plasticity(input_freq):
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// Presynapse: facilitate or depress based on Ca²⁺ history
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if input_freq > 20Hz: // facilitation
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vesicle_release_prob *= 1.3 // residual Ca²⁺ primes launchpad
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mobilize(reserve_pool → RRP_pool) // break storage chains
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elif input_freq < 5Hz: // depression
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vesicle_release_prob *= 0.7 // RRP depleted faster than refill
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// Postsynapse: NMDA gate primed if frequency sustained
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if input_freq >= 50Hz and duration > 1s:
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NMDA_Mg_block = False // sustained depolarization
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postsynaptic_Ca accumulates // early-LTP signal rises
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// Astrocyte: sense volume → deploy co-agonist
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if glutamate_cleft > threshold_mid:
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D_serine_release += gliotransmitter_pulse() // acoustic stabilizer
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astro_Ca += IP3_wave()
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// Neuromodulators: shift operational threshold globally
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LTP_threshold *= gain(1 / (1 + acetylcholine_level))
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signal_to_noise += norepinephrine_level × β_receptor_gain
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## slow time scale — structural carving (h → weeks)
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function late_LTP_consolidation():
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// Gate: dopamine "save button" must arrive
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if postsynaptic_Ca > Ca_LTP_threshold and dopamine_level > D1_threshold:
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// Postsynapse: anchor new receptors
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AMPA_count += receptor_insertion(CaMKII_signal)
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spine_volume *= 1.5 // spine head enlarges
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// Presynapse: expand active zone, fill launchpad
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active_zone_size *= 1.4
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vesicle_release_prob += 0.1 // VGCC clustering beneath AZ
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// Astrocyte: seal the acoustic channel
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ECM_integrity += secrete(Glypicans, Thrombospondins)
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retract(perisynaptic_process) // astrocyte walls in closer → insulate
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glutamate_clearance_rate *= 0.85 // tighter diffusion barrier
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// Late-LTP endpoint: carved channel
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return synapse_state = "potentiated"
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function LTD_active_forgetting():
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// Trigger: low-freq, out-of-sync — discordant leakage only
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if input_freq ≈ 1Hz and timing == "uncorrelated":
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// Postsynapse: small Ca²⁺ rise activates phosphatases
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AMPA_count -= receptor_internalization(PP1_signal)
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// Astrocyte: deploy molecular scissors → dissolve matrix
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D_serine_release = 0 // cut co-agonist supply
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ECM_integrity -= secrete(MMPs) // matrix metalloproteinases
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// Presynapse: dismantle launchpad
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active_zone_size -= docking_slot_removal()
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vesicle_release_prob *= 0.6
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sequester(RRP_pool → reserve_pool)
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return synapse_state = "depressed"
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function shockwave_lockdown(): // Mode 3 — >100Hz uncoordinated
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// Astrocyte: global Ca²⁺ wave triggers circuit-breaker
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astro_Ca = GLOBAL_WAVE // soma-level flood
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release(GABA, ATP) // gel floods postsynapse
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AMPA_count -= mass_internalization()
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membrane_potential = HYPERPOLARIZED
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// Presynapse: overdrive clustering to preserve signal
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cluster(VGCC → beneath_active_zone) // ensures penetration
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## energy supply chain — metabolic gating (continuous)
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function metabolic_loop(Δt):
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// Astrocyte: glucose → lactate pipeline
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glucose_uptake = blood_capillary_supply()
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lactate_output = glycolysis(glucose_uptake, glutamate_clearance_rate)
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// Both neurons absorb lactate → power pumps
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RRP_pool refill rate ∝ VATPase(lactate_output)
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membrane_potential reset ∝ NaK_ATPase(lactate_output)
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// Feedback: harder clearance work → faster fuel pump
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lactate_output *= load_factor(glutamate_clearance_rate)
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**State variables** at the top declare every quantity that gets modified — split by which cell "owns" it. These are the nodes that the rest of the code reads and writes.
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**Three time-scale functions** then show how those variables evolve:
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- `fire_action_potential` is pure fast physics — Ca²⁺ triggers vesicle release, AMPA opens, NMDA unlocks only under coincidence, astrocyte clears the cleft, fuel is consumed.
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- `short_term_plasticity` runs on top of repeated firing — the presynapse facilitates or depresses based on Ca²⁺ history, the astrocyte drops D-serine when volume is high, and neuromodulators shift the gain coefficient globally.
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- `late_LTP_consolidation` and `LTD_active_forgetting` are the permanent rewrite layer — they require the dopamine "save button" as an AND-gate, and they modify structural variables (`active_zone_size`, `ECM_integrity`, `AMPA_count`) that persist independently of individual spikes.
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The `shockwave_lockdown` and `metabolic_loop` sit alongside as two special-case routines that override the normal flow — one a circuit-breaker, the other a continuous background process coupling astrocyte workload to fuel delivery.
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# Core business of each component
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# Core business of each component
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## 1. The Core Businesses of Each Component
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## 1. The Core Businesses of Each Component
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