BDNF Extraction Viewer

Epigenetic Regulation of Trk Receptors and Neurotrophic Signalling in Neuroblastoma: Mechanisms, Plasticity, and Therapeutic Opportunities.

PMID: 41977421 · DOI: 10.3390/ijms27073238 · International journal of molecular sciences, 2026 · Carlotta Siddi, Jihane Balla, Paola Fadda, Simona Dedoni

📄 Abstract

Neuroblastoma (NB) represents a paradigmatic developmental malignancy in which lineage specification, oncogenic signalling, and epigenetic regulation converge to define tumour behaviour. Among the molecular axes shaping NB heterogeneity, neurotrophin receptors of the tropomyosin receptor kinase (Trk) family (TrkA, TrkB, and TrkC) and the p75NTR occupy a central position at the intersection between neuronal differentiation programs and malignant plasticity. While high TrkA and TrkC expression is associated with adrenergic identity, differentiation competence, and favourable clinical outcome, TrkB, frequently sustained by BDNF-driven autocrine loops, characterises mesenchymal-like, therapy-resistant states enriched in metabolic and inflammatory adaptations. Importantly, in NB, the dysregulation of neurotrophin signalling rarely arises from recurrent genetic alterations of neurotrophic tyrosine receptor kinase (

Confidence: 0.15 · 6 полей извлечено

Идентификация (6 полей)

Target

Trk receptors

0.90

Alt. target

tropomyosin receptor kinase family

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Protein family

neurotrophin receptors

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Functional class

receptor tyrosine kinases

0.80

Subcellular loc.

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0.00

Isoforms (metab/obesity)

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0.00

Механизм действия (21 полей)

Mechanism

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Mutations (obesity/lean)

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Activity (obesity)

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Activity temporal

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Energy balance

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Appetite

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0.00

Fat metabolism

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Lipolysis

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Thermogenesis

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Muscle metabolism

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0.00

Inflammation

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Glucose metabolism

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0.00

AA metabolism

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Hormonal pathways

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Cell death

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Adipocyte fibrosis

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Upstream (biochem)

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Upstream (physiol)

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Downstream (biochem)

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0.00

Downstream (physiol)

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0.00

PTMs

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0.00

Экспрессия (8 полей)

Tissue expression

High TrkA and TrkC expression is associated with adrenergic identity, differentiation competence, and favourable clinical outcome; TrkB characterises mesenchymal-like, therapy-resistant states enriched in metabolic and inflammatory adaptations.

0.90

In vitro

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0.00

In vivo

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0.00

In silico

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0.00

Genetic association

Dysregulation of neurotrophin signalling rarely arises from recurrent genetic alterations of neurotrophic tyrosine receptor kinase.

0.80

Ex vivo

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0.00

Animal model

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0.00

Diet/model

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0.00

Клиника (11 полей)