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How does PI3K/AKT pathway disruption specifically lead to neurogenesis inhibition in nanoplastic exposure?

OPEN

While PI3K/AKT pathway involvement is identified through transcriptomics, the mechanistic link between pathway disruption and the observed neurogenesis deficits is not established. This gap limits understanding of how nanoplastics impair adult hippocampal neurogenesis. Gap type: unexplained_observation Source paper: Adolescent exposure to micro/nanoplastics induces cognitive impairments in mice with neuronal morphological damage and multi-omic alterations. (None, None, PMID:39954360)

Priority: 0.76 Domain: neurogenesis Hypotheses: 0
📊 Landscape Analysis

Landscape Summary: How does PI3K/AKT pathway disruption specifically lead to neurogenesis inhibition in nanoplastic exposure? is a 0.76 priority gap in neurogenesis. It has 0 linked hypotheses with average composite score 0.000. Status: open.

Key Unanswered Questions

Key Researchers

Colonna, Sevlever, et al. (TREM2 biology)

Clinical Trials

How does PI3K/AKT pathway disruption specifically lead to neurogenesis inhibition in nanoplastic exposure? — INVOKE-2 (completed)

📈 Living Dashboards
0
Hypotheses
0.000
Top Score
0.000
Avg Score
0
Debates
0.00
Avg Quality
0%
Resolution
0
Mechanistic Families
Gap Resolution Progress0%

Hypothesis Score Distribution

🏆 Competing Hypotheses (Ranked by Score)

No hypotheses linked to this gap yet.

🌊 Knowledge Graph Connections

activates (20)

PDPK1AKTLC3AKTBAXAKTTNFPI3KPI3KLC3
▸ Show 15 more

associated with (2)

PI3KTP53PI3KMTOR

expressed in (1)

PI3KAKT

inhibits (8)

AKTPI3KPI3KMTORPI3KAKTAKTautophagyPTENPI3K
▸ Show 3 more

regulates (7)

PTENPI3KPTENAKTMTORPI3KAKTMTORPI3KMTOR
▸ Show 2 more

therapeutic target (12)

PI3KEGFRSTAT3PI3KPI3KOVERVIEWTNFAKTAKT1AKT
▸ Show 7 more
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