Entity Detail — Knowledge Graph Node
This page aggregates everything SciDEX knows about MPO: its mechanistic relationships (Knowledge Graph edges), hypotheses targeting it, analyses mentioning it, and supporting scientific papers. The interactive graph below shows its immediate neighbors. All content is AI-synthesized from peer-reviewed literature.
No AI portrait yet
Knowledge base pages for this entity
| Target | Relation | Type | Str |
|---|---|---|---|
| ds-83b31ef18d49 | provides_data_for | dataset | 1.00 |
| Neutrophil Extracellular Trap Formation | involved_in | process | 0.80 |
| Source | Relation | Type | Str |
|---|---|---|---|
| ds-83b31ef18d49 | data_in | dataset | 1.00 |
Hypotheses where this entity is a therapeutic target
Scientific analyses that reference this entity
No analyses mention this entity
Experimental studies targeting or related to this entity
| Experiment | Type | Disease | Score | Feasibility | Model | Status | Est. Cost |
|---|---|---|---|---|---|---|---|
| SPP1 upregulation in perivascular cells in AD mouse models | exploratory | Alzheimer's disease | 0.900 | 0.00 | AD mouse models | proposed | N/A |
| Spp1 knockout prevents synaptic loss in AD mouse models | validation | Alzheimer's disease | 0.900 | 0.00 | Spp1 knockout AD mouse models | proposed | N/A |
| Single-cell RNA sequencing of microglial states in AD hippocampus | exploratory | Alzheimer's disease | 0.850 | 0.00 | AD mouse hippocampus | proposed | N/A |
| Cell-cell interaction analysis of perivascular-microglial crosstalk | exploratory | Alzheimer's disease | 0.800 | 0.00 | AD mouse models | proposed | N/A |
| Basic Mechanism: Membrane-Driven Alpha-Synuclein Nucleation | validation | Parkinson's Disease | 0.400 | 0.50 | human | proposed | $2,730,000 |
Scientific publications cited in analyses involving this entity
| Title & PMID | Authors | Journal | Year | Citations |
|---|---|---|---|---|
| Endosomal-Lysosomal and Autophagy Pathway in Alzheimer's Disease: A Systematic R [PMID:35754279] | Saffire H Krance, Che-Yuan Wu, Alison C | Journal of Alzheimer's disease | 2022 | 1 |
| Mismatch repair MLH complexes make distinct contributions to post-replicative mi [PMID:41648604] | Casazza KM, Williams GM, Johengen L, Kel | bioRxiv | 2026 | 0 |
| Membrane remodeling and higher-order structure formation by DivIVA. [PMID:41819316] | Labajová N, Obořilová R, Pinkas D, Přiby | Int J Biol Macromol | 2026 | 0 |
| Enhancing TREM2 expression activates microglia and modestly mitigates tau pathol [PMID:40122810] | ["Chen Kai", "Li Fuyao", "Zhang Shuwen", | Journal of neuroinflammation | 2025 | 0 |
| Exosomes as nanocarriers for brain-targeted delivery of therapeutic nucleic acid [PMID:40533746] | ["Sanadgol N", "Abedi M", "Hashemzaei M" | Journal of nanobiotechnology | 2025 | 0 |
| Flotillin-1 palmitoylation is essential for its stability and subsequent tumor p [PMID:38374406] | McClellan B, Wilson CN, Brenner AJ, Joll | Oncogene | 2024 | 0 |
| FLOT1 promotes gastric cancer progression and metastasis through BCAR1/ERK signa [PMID:37928269] | Wang R, Huang W, Cai K, Xiao S, Zhang W, | International journal of biolo | 2023 | 0 |
| SDC1-TGM2-FLOT1-BHMT complex determines radiosensitivity of glioblastoma by infl [PMID:37441590] | ["Zeng L", "Zheng W", "Liu X", "Zhou Y", | Theranostics | 2023 | 0 |
| The roles of FLOT1 in human diseases (Review). [PMID:37772385] | Zhan Z, Ye M, Jin X | Molecular medicine reports | 2023 | 0 |
| Perindopril ameliorates experimental Alzheimer's disease progression: role of am [PMID:32488543] | Messiha BAS, Ali MRA, Khattab MM, Abo-Yo | Inflammopharmacology | 2020 | 0 |
| CD38 in Neurodegeneration and Neuroinflammation. [PMID:32085567] | Guerreiro S, Privat AL, Bressac L, Toulo | Cells | 2020 | 0 |
| Neurodegeneration and Inflammation-An Interesting Interplay in Parkinson's Disea [PMID:33182554] | Marogianni C, Sokratous M, Dardiotis E, | International journal of molec | 2020 | 0 |
| Flotillin membrane domains in cancer. [PMID:32297092] | ["Gauthier-Rouvi\u00e8re C", "Bodin S", | Cancer metastasis reviews | 2020 | 0 |
| Multiple Sclerosis Pathology. [PMID:29358320] | Lassmann H | Cold Spring Harbor perspective | 2018 | 0 |
| Prognostic value of flotillins (flotillin-1 and flotillin-2) in human cancers: A [PMID:29499201] | ["Deng Y", "Ge P", "Tian T", "Dai C", "W | Clinica chimica acta; internat | 2018 | 0 |
| Glutaminase 1 regulates the release of extracellular vesicles during neuroinflam [PMID:29540215] | ["Wu B", "Liu J", "Zhao R", "Li Y", "Pee | Journal of neuroinflammation | 2018 | 0 |
| Cellular uptake of extracellular vesicles is mediated by clathrin-independent en [PMID:28919558] | Costa Verdera H, Gitz-Francois JJ, Schif | Journal of controlled release | 2017 | 0 |
| Elevated LRRK2 autophosphorylation in brain-derived and peripheral exosomes in L [PMID:29166931] | Wang S, Liu Z, Ye T, Mabrouk OS, Maltbie | Acta neuropathologica communic | 2017 | 0 |
| A role for lipid rafts in the protection afforded by docosahexaenoic acid agains [PMID:23907024] | ["Aliche-Djoudi F", "Podechard N", "Coll | Food and chemical toxicology : | 2013 | 0 |
| The chemokine, macrophage inflammatory protein-2γ, reduces the expression of glu [PMID:23234294] | ["Fang J", "Han D", "Hong J", "Tan Q", " | Journal of neuroinflammation | 2012 | 0 |
Multi-agent debates referencing this entity
No debates reference this entity
Hypotheses and analyses mentioning MPO in their description or question text
Score: 0.705 · neurodegeneration · 2026-04-21
**Molecular Mechanism and Rationale** The spatiotemporal coupling between TRPML1-mediated lysosomal calcium release and
Score: 0.695 · unknown disease · 2026-04-04
## Mechanistic Overview Temporal Microglial State Switching starts from the claim that modulating Optogenetic constructs
Score: 0.693 · neurodegeneration · 2026-04-26
Neurons express a distinct V-ATPase subunit isoform profile (ATP6V0C splice variants and ATP6V1G2 enrichment) resulting
Score: 0.681 · neurodegeneration · 2026-04-04
## Mechanistic Overview Temporal CAG Repeat Stabilization via CRISPR-Mediated DNA Mismatch Repair Modulation starts from
Score: 0.681 · neurodegeneration · 2026-04-02
## Mechanistic Overview Flotillin-1 Stabilization Compounds starts from the claim that modulating FLOT1 within the disea
Score: 0.657 · neurodegeneration · 2026-04-02
## Mechanistic Overview Temporal TET2-Mediated Hydroxymethylation Cycling starts from the claim that modulating TET2 wit
Score: 0.644 · neurodegeneration · 2026-04-12
## Mechanistic Overview Temporal Metabolic Window Therapy starts from the claim that modulating HMGCS2 within the diseas
Score: 0.609 · neurodegeneration · 2026-04-04
## Mechanistic Overview Temporal TFEB Modulation Therapy starts from the claim that modulating TFEB within the disease c
Score: 0.600 · unknown disease · 2026-04-26
A LASSO-optimized composite score integrating plasma GFAP, S100B, NFL, soluble PDGFR-β, and claudin-5 fragments to achie
Score: 0.583 · unknown disease · 2026-04-25
Concise Statement: Progressive failure of autophagy flux in AD neurons produces a cascading epigenetic feedback loop —
Score: 0.565 · Alzheimer's disease · 2026-04-04
## Mechanistic Overview Temporal Gating of Microglial Responses starts from the claim that modulating CLOCK, ARNTL withi
Score: 0.560 · neuroinflammation · 2026-04-21
## Mechanistic Overview Temporal cGAS-STING Activation Stage-Specific Therapeutic Targeting starts from the claim that m
Score: 0.551 · neuroinflammation · 2026-04-20
## Mechanistic Overview Temporal NLRP3 Inhibition During SPP1-Driven Microglial Activation Windows starts from the claim
Score: 0.543 · neurodegeneration · 2026-04-02
## Mechanistic Overview Temporal Decoupling via Circadian Clock Reset starts from the claim that modulating CLOCK within