Diphenoxylate

294+ PubMed studies analyzed · BiohacksAI corpus v20260307-01

PubMed Studies

294+

Targets

Pathways

Molecular Targets

KCNA3 OPRM1

Molecular targets identified in BiohacksAI corpus. Click to explore all compounds affecting each target.

Biological Pathways

GUT_MICROBIOME DOPAMINE_SEROTONIN INSULIN_SIGNALING AUTOPHAGY CALCIUM_SIGNALING NITRIC_OXIDE INFLAMMATION mTOR OXIDATIVE_STRESS IMMUNE_FUNCTION

Biological pathways associated with Diphenoxylate based on target analysis.

Biological Mechanisms

IRSInsulin Signaling ATGAutophagy NGFNeuroplasticity NONitric Oxide NF-κBNF-κB mTORmTOR NRF2Nrf2 NLRP3NLRP3 Inflammasome

Biological mechanisms activated or modulated by Diphenoxylate based on pathway and target analysis.

Health Goals

Gut Health →Immune Support →Mood →Focus →Longevity →

Health goals where Diphenoxylate ranks among evidence-based compounds in the BiohacksAI corpus.

Related Conditions

IBS →Chronic Inflammation →Depression →Anxiety →Type 2 Diabetes →

Health conditions associated with the biological pathways influenced by Diphenoxylate.

External References

PubChem CID 13505 →294 PubMed studies →

Similar Compounds

Explore compounds with similar target profiles and pathway overlap.

Data Source

Corpusv20260307-01

PubMed studies294

PubChem CID13505

SourcePubMed / NCBI · ChEMBL · Reactome · PubChem

All data is computationally derived from published research. Molecular structure images from PubChem (public domain). Not medical advice. Independent validation required.

This compound profile for Diphenoxylate is generated from 294 PubMed-indexed studies. Key molecular targets include KCNA3, OPRM1. Associated biological pathways: GUT_MICROBIOME, DOPAMINE_SEROTONIN, INSULIN_SIGNALING. BiohacksAI does not provide medical advice. Consult a healthcare professional before starting any supplement regimen.