Entity Detail — Knowledge Graph Node
This page aggregates everything SciDEX knows about PHB2: 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 summary available yet. View on Wiki →
| Name | PHB2 |
| Key Genes/Proteins | PINK1, PRKN, UBQLN2, TDP-43 |
| Related Diseases | Cancer Cell Growth, Alzheimer, Als, Dementia, Parkinson |
| Related Pathways | PINK1-PRKN-Dependent Mitophagy, autophagy pathway, ubiquitin-proteasome, apoptosis pathway |
| Linked Hypotheses | 1 hypotheses |
Knowledge base pages for this entity
graph TD
PHB2["PHB2"]
style PHB2 fill:#1a237e,stroke:#4fc3f7,stroke-width:3px
PHB2 -->|"interacts"| Alzheimer["Alzheimer"]
PHB2 -->|"interacts"| Als["Als"]
PHB2 -->|"interacts"| Dementia["Dementia"]
PHB2 -->|"interacts"| Parkinson["Parkinson"]
PHB2 -.->|"inhibits"| Aging["Aging"]
PHB2 -.->|"degrades"| Cardiovascular["Cardiovascular"]
PHB2 -->|"interacts"| Frontotemporal_Dementia["Frontotemporal Dementia"]
PHB2 -->|"studied_in"| neurodegeneration["neurodegeneration"]
PHB2 -->|"interacts"| UBIQUITIN([UBIQUITIN])
PEX3([PEX3]) -->|"interacts"| PHB2
PARL([PARL]) -->|"interacts"| PHB2
BNIP3([BNIP3]) -->|"interacts"| PHB2
OPTINEURIN([OPTINEURIN]) -->|"interacts"| PHB2
NLRP3([NLRP3]) -->|"interacts"| PHB2
G3BP1([G3BP1]) -->|"interacts"| PHB2
PTEN([PTEN]) -->|"interacts"| PHB2
DISC1([DISC1]) -->|"interacts"| PHB2
PRESENILIN([PRESENILIN]) -->|"interacts"| PHB2
MFN1([MFN1]) -->|"interacts"| PHB2| Target | Relation | Type | Str |
|---|---|---|---|
| PINK1 | associated_with | protein | 0.95 |
| PINK1-PRKN-Dependent Mitophagy | mediates | pathway | 0.95 |
| PRKN | mediates | protein | 0.90 |
| Cancer Cell Growth | associated_with | phenotype | 0.85 |
| autophagy pathway | participates_in | pathway | 0.70 |
| ubiquitin-proteasome | participates_in | pathway | 0.70 |
| apoptosis pathway | participates_in | pathway | 0.70 |
| TDP-43 | associated_with | gene | 0.65 |
| Alzheimer | interacts_with | disease | 0.65 |
| Als | interacts_with | disease | 0.65 |
| Dementia | interacts_with | disease | 0.65 |
| Parkinson | interacts_with | disease | 0.65 |
| Ischemia | associated_with | disease | 0.65 |
| Aging | inhibits | disease | 0.65 |
| Aging | degrades | disease | 0.65 |
| Cardiovascular | degrades | disease | 0.65 |
| Frontotemporal Dementia | interacts_with | disease | 0.65 |
| Cancer | associated_with | disease | 0.65 |
| UBIQUITIN | interacts_with | gene | 0.60 |
| RB1 | interacts_with | gene | 0.60 |
| GBA | interacts_with | gene | 0.60 |
| SNCA | interacts_with | gene | 0.60 |
| CAT | interacts_with | gene | 0.60 |
| LMNA | interacts_with | gene | 0.60 |
| EMD | interacts_with | gene | 0.60 |
| ABCD3 | interacts_with | gene | 0.60 |
| BECN1 | interacts_with | gene | 0.60 |
| SESN2 | interacts_with | gene | 0.60 |
| NBR1 | interacts_with | gene | 0.60 |
| PARKIN | interacts_with | gene | 0.60 |
| CTSD | interacts_with | gene | 0.60 |
| FMR1 | interacts_with | gene | 0.60 |
| CANX | interacts_with | gene | 0.60 |
| ATM | interacts_with | gene | 0.60 |
| PINK1 | interacts_with | gene | 0.60 |
| OPTN | interacts_with | gene | 0.60 |
| RTN3 | interacts_with | gene | 0.60 |
| BCL2 | interacts_with | gene | 0.60 |
| SNCAIP | interacts_with | gene | 0.60 |
| AMBRA1 | interacts_with | gene | 0.60 |
| STING1 | interacts_with | gene | 0.60 |
| UBIQUITIN | associated_with | gene | 0.60 |
| GAPDH | associated_with | gene | 0.60 |
| BNIP3L | associated_with | gene | 0.60 |
| PARKIN | associated_with | gene | 0.60 |
| BCL2L13 | associated_with | gene | 0.60 |
| MAP1LC3A | associated_with | gene | 0.60 |
| MAP1LC3B | associated_with | gene | 0.60 |
| COX4I1 | associated_with | gene | 0.60 |
| SQSTM1 | associated_with | gene | 0.60 |
| Source | Relation | Type | Str |
|---|---|---|---|
| FL3 | inhibits | compound | 0.90 |
| h-8bd89d90 | targets_gene | hypothesis | 0.90 |
| UBQLN2 | interacts_with | gene | 0.80 |
| DNAJB6 | protects_against | gene | 0.65 |
| PEX3 | interacts_with | gene | 0.60 |
| PARL | interacts_with | gene | 0.60 |
| BNIP3 | interacts_with | gene | 0.60 |
| OPTINEURIN | interacts_with | gene | 0.60 |
| NLRP3 | interacts_with | gene | 0.60 |
| G3BP1 | interacts_with | gene | 0.60 |
| PTEN | interacts_with | gene | 0.60 |
| DISC1 | interacts_with | gene | 0.60 |
| MFN1 | interacts_with | gene | 0.60 |
| MUL1 | interacts_with | gene | 0.60 |
| PRKN | interacts_with | gene | 0.60 |
| FUNDC1 | interacts_with | gene | 0.60 |
| BCL2L13 | interacts_with | gene | 0.60 |
| TAX1BP1 | interacts_with | gene | 0.60 |
| TOMM20 | associated_with | gene | 0.60 |
| ATG7 | associated_with | gene | 0.60 |
| SQSTM1 | associated_with | gene | 0.60 |
| COX4I1 | associated_with | gene | 0.60 |
| PARK2 | associated_with | gene | 0.60 |
| PARKIN | associated_with | gene | 0.60 |
| GAPDH | associated_with | gene | 0.60 |
| CTSD | interacts_with | gene | 0.60 |
| BECN1 | interacts_with | gene | 0.60 |
| PARKIN | interacts_with | gene | 0.60 |
| SNCA | interacts_with | gene | 0.60 |
| SESN2 | interacts_with | gene | 0.60 |
| STING1 | interacts_with | gene | 0.60 |
| CAT | interacts_with | gene | 0.60 |
| BCL2 | interacts_with | gene | 0.60 |
| LMNA | interacts_with | gene | 0.60 |
| ABCD3 | interacts_with | gene | 0.60 |
| EMD | interacts_with | gene | 0.60 |
| NBR1 | interacts_with | gene | 0.60 |
| RB1 | interacts_with | gene | 0.60 |
| AMBRA1 | interacts_with | gene | 0.60 |
| ATM | interacts_with | gene | 0.60 |
| OPTN | interacts_with | gene | 0.60 |
| GBA | interacts_with | gene | 0.60 |
| RTN3 | interacts_with | gene | 0.60 |
| UBIQUITIN | interacts_with | gene | 0.60 |
| SNCAIP | interacts_with | gene | 0.60 |
| CANX | interacts_with | gene | 0.60 |
| BCL2L13 | associated_with | gene | 0.60 |
| MACF1 | associated_with | gene | 0.60 |
| ATM | activates | gene | 0.60 |
| BCL2 | activates | gene | 0.60 |
Hypotheses where this entity is a therapeutic target
| Hypothesis | Score | Disease | Analysis |
|---|---|---|---|
| Prohibitin-2 Mitochondrial Cross-Seeding Hub Disruption | 0.384 | neurodegeneration | Protein aggregation cross-seeding across |
Scientific analyses that reference this entity
neurodegeneration | 2026-04-01 | 7 hypotheses Top: 0.488
Scientific publications cited in analyses involving this entity
| Title & PMID | Authors | Journal | Year | Citations |
|---|---|---|---|---|
| Organelle-specific autophagy in inflammatory diseases: a potential therapeutic t [PMID:32048886] | Yao RQ, Ren C, Xia ZF, Yao YM | Autophagy | 2021 | 2 |
| Macrophage TRIM21 Inhibition Ameliorates Murine Acute Pancreatitis via PHB2-Medi [PMID:41572443] | Xu Y, Sun Y, Zhou X, Song K, Yin C et al | Adv Sci (Weinh) | 2026 | 0 |
| Src-mediated PHB2 phosphorylation disrupts mitochondrial cristae through cardiol [PMID:41666677] | Shao Z, Yang X, Wang B, Wang X, Zhao D e | Redox Biol | 2026 | 0 |
| Mitochondria-Related Pathogenic Genes in Paediatric Asthma: A Multi-Omics Mendel [PMID:41896191] | Zhang B, Li Y, Ding B, Li X, Lu Y | J Cell Mol Med | 2026 | 0 |
| Interaction of mtROS-Immune-Inflammatory Vicious Cycle Activation in Sepsis-Indu [PMID:41905969] | Wang Y, Yuan Q | Clin Exp Pharmacol Physiol | 2026 | 0 |
| Efficient PHB2 (prohibitin 2) exposure during mitophagy depends on VDAC1 (voltag [PMID:39513197] | ["Roy M", "Nandy S", "Marchesan E", "Ban | Autophagy | 2025 | 0 |
| Role of AMBRA1 in mitophagy regulation: emerging evidence in aging-related disea [PMID:39113560] | Di Rienzo M, Romagnoli A, Refolo G, Vesc | Autophagy | 2024 | 0 |
| Current opinions on mitophagy in fungi. [PMID:35793406] | Shen ZF, Li L, Zhu XM, Liu XH, Klionsky | Autophagy | 2023 | 0 |
| Harlequin syndrome associated with thoracic epidural anaesthesia. [PMID:35118419] | Persson RM, Tellnes K, Hoven H, Haaverst | Anaesthesia reports | 2022 | 0 |
| Transmission dynamics of a linear vanA-plasmid during a nosocomial multiclonal o [PMID:34285270] | Fujiya Y, Harada T, Sugawara Y, Akeda Y, | Scientific reports | 2021 | 0 |
| The expression of PHB2 in the cochlea: Possible relation to age-related hearing [PMID:34435719] | ["Yu X", "Guan M", "Shang H", "Teng Y", | Cell biology international | 2021 | 0 |
| Massive Hemoptysis and Recurrent Infective Endocarditis in Intravenous Drug user [PMID:33154920] | Almutairi MD, El-Ghoneimy YA, Alghamdi A | Journal of the Saudi Heart Ass | 2020 | 0 |
| Evaluation of care coordination among healthy community-dwelling older adults fi [PMID:31296608] | Kean T | Evidence-based nursing | 2020 | 0 |
| High resolution spatiotemporal patterns of seawater temperatures across the Beli [PMID:33199700] | Helmuth B, Leichter JJ, Rotjan RD, Casti | Scientific data | 2020 | 0 |
| Prohibitin levels regulate OMA1 activity and turnover in neurons. [PMID:31819158] | ["Anderson C", "Kahl A", "Fruitman H", " | Cell death and differentiation | 2020 | 0 |
| Multiplexed orthogonal genome editing and transcriptional activation by Cas12a. [PMID:30559432] | Breinig M, Schweitzer AY, Herianto AM, R | Nature methods | 2019 | 0 |
| Comprehensive Analysis of Alternative Splicing Across Tumors from 8,705 Patients [PMID:30078747] | Kahles A, Lehmann KV, Toussaint NC, Hüse | Cancer cell | 2018 | 0 |
| Macrophage migration inhibitory factor downregulation: a novel mechanism of resi [PMID:28218903] | Castro BA, Flanigan P, Jahangiri A, Hoff | Oncogene | 2017 | 0 |
| Prohibitin 2 Is an Inner Mitochondrial Membrane Mitophagy Receptor. [PMID:28017329] | ["Wei Y", "Chiang W", "Sumpter R", "Mish | Cell | 2017 | 0 |
| Remediation of textile effluents by membrane based treatment techniques: a state [PMID:25261752] | Dasgupta J, Sikder J, Chakraborty S, Cur | Journal of environmental manag | 2015 | 0 |