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neuron+injury

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By Targets:	5-HT Receptor (3) Apoptosis (1) Drug Derivative (1) iGluR (3) Monoamine Oxidase (3) Reference Standards (1)
By Research Areas:	Cardiovascular Disease (2) Neurological Disease (8)

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Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-100834

5,7-Dichlorokynurenic acid 1 Publications Verification 5,7-DCKA	iGluR	Neurological Disease
5,7-Dichlorokynurenic acid (5,7-DCKA) is a selective and competitive antagonist of the glycine site on NMDA receptor with a K_B of 65 nM. 5,7-Dichlorokynurenic acid reduces NMDA-induced neuron injury. 5,7-Dichlorokynurenic acid increases social interaction time, increases open arm exploration time, disinhibits suppressed conflict responding in rodent models. 5,7-Dichlorokynurenic acid exhibits anxiolytic-like activity in rodent models and supports exploration of glycine’s role in NMDA receptor-mediated synaptic transmission .

HY-N12277

Celosin K	Apoptosis	Neurological Disease
Celosin K (compound 8) can be isolated from the seeds of Semen Celosiae. Celosin K is a potent inhibitor of *neuron injury* elicited by t-BHP. Celosin K inhibits oxidative stress and apoptosis, and acts of autophagy .

HY-172583

Neuroprotective agent 9	Drug Derivative	Neurological Disease
Neuroprotective agent 9 (compound 7) is a neuroprotective agent. Neuroprotective agent 9 is promising for research of neuron injury such as cerebral apoplexy, cerebral injury, and neuropathic pain .

HY-100834A

5,7-Dichlorokynurenic acid sodium 5,7-DCKA sodium	iGluR	Neurological Disease
5,7-Dichlorokynurenic acid (5,7-DCKA) sodium is a selective and competitive antagonist of the glycine site on NMDA receptor with a K_B of 65 nM. 5,7-Dichlorokynurenic acid sodium reduces NMDA-induced neuron injury. 5,7-Dichlorokynurenic acid sodium increases social interaction time, increases open arm exploration time, disinhibits suppressed conflict responding in rodent models. 5,7-Dichlorokynurenic acid sodium exhibits anxiolytic-like activity in rodent models and supports exploration of glycine’s role in NMDA receptor-mediated synaptic transmission .

HY-100834R

5,7-Dichlorokynurenic acid (Standard) 5,7-DCKA (Standard)	Reference Standards iGluR	Neurological Disease
5,7-Dichlorokynurenic acid (Standard) is the analytical standard of 5,7-Dichlorokynurenic acid (HY-100834). This product is intended for research and analytical applications. 5,7-Dichlorokynurenic acid (5,7-DCKA) is a selective and competitive antagonist of the glycine site on NMDA receptor with a K_B of 65 nM. 5,7-Dichlorokynurenic acid reduces NMDA-induced neuron injury. 5,7-Dichlorokynurenic acid increases social interaction time, increases open arm exploration time, disinhibits suppressed conflict responding in rodent models. 5,7-Dichlorokynurenic acid exhibits anxiolytic-like activity in rodent models and supports exploration of glycine’s role in NMDA receptor-mediated synaptic transmission .

HY-N18471

5,7-Dihydroxytryptamine 5,7-DHP	Monoamine Oxidase 5-HT Receptor	Cardiovascular Disease Neurological Disease
5,7-Dihydroxytryptamine (5,7-DHP) is an autofluorescent (λ_ex≈365 nm), selective neurotoxin and a transport substrate for MAO-A and 5-HT. 5,7-Dihydroxytryptamine can specifically target and damage central and peripheral 5-HTergic neurons, while affecting 5-HT-related pathways and neurotransmitter balance. 5,7-Dihydroxytryptamine can be used to establish 5-HTergic neuron injury models for studies on neural development, neurodegenerative diseases, as well as mechanisms related to platelet function and retinal neurons .

HY-N18471A

5,7-Dihydroxytryptamine hydrobromide 5,7-DHP hydrobromide	Monoamine Oxidase 5-HT Receptor	Neurological Disease
5,7-Dihydroxytryptamine (5,7-DHT) hydrobromide is an autofluorescent (Ex ≈ 365 nm), selective neurotoxin and a transport substrate for MAO-A and 5-HT. 5,7-Dihydroxytryptamine hydrobromide can specifically target and damage central and peripheral 5-HTergic neurons, while affecting 5-HT-related pathways and neurotransmitter balance. 5,7-Dihydroxytryptamine hydrobromide can be used to establish 5-HTergic neuron injury models for studies on neural development, neurodegenerative diseases, as well as mechanisms related to platelet function and retinal neurons .

HY-N18471B

5,7-Dihydroxytryptamine creatinine sulfate 5,7-DHP creatinine sulfate	Monoamine Oxidase 5-HT Receptor	Cardiovascular Disease Neurological Disease
5,7-Dihydroxytryptamine creatinine sulfate (5,7-DHT) is an autofluorescent (Ex ≈ 365 nm), selective neurotoxin and a transport substrate for MAO-A and 5-HT. 5,7-Dihydroxytryptamine creatinine sulfate can specifically target and damage central and peripheral 5-HTergic neurons, while affecting 5-HT-related pathways and neurotransmitter balance. 5,7-Dihydroxytryptamine creatinine sulfate can be used to establish 5-HTergic neuron injury models for studies on neural development, neurodegenerative diseases, as well as mechanisms related to platelet function and retinal neurons .

Celosin K	Triterpenes Structural Classification Celosia argentea Linn. Terpenoids Amaranthaceae Plants Pentacyclic Triterpenoids Source Classification	Apoptosis
Celosin K (compound 8) can be isolated from the seeds of Semen Celosiae. Celosin K is a potent inhibitor of *neuron injury* elicited by t-BHP. Celosin K inhibits oxidative stress and apoptosis, and acts of autophagy .

5,7-Dihydroxytryptamine 5,7-DHP	Structural Classification Alkaloids Animals Indole Alkaloids Source Classification	Monoamine Oxidase 5-HT Receptor
5,7-Dihydroxytryptamine (5,7-DHP) is an autofluorescent (λ_ex≈365 nm), selective neurotoxin and a transport substrate for MAO-A and 5-HT. 5,7-Dihydroxytryptamine can specifically target and damage central and peripheral 5-HTergic neurons, while affecting 5-HT-related pathways and neurotransmitter balance. 5,7-Dihydroxytryptamine can be used to establish 5-HTergic neuron injury models for studies on neural development, neurodegenerative diseases, as well as mechanisms related to platelet function and retinal neurons .

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BODIPY 493/503 purchased from MedChemExpress. Usage Cited in: Nat Commun. 2025 Feb 1;16(1):1241. [Abstract]

MedchemExpress Validation 01

Western blot analysis of extracts from THP-1(lane 2(20μg), Jurkat (lane 3(20μg) and NIH3T3(lane 4(20μg) using FOXO1A (HY-P80132) Rabbit mAb. Proteins were transferred to a PVDF membrane and blocked with 5% non-fat milk in TBST for 2 hour at room temperature. The primary antibody (1/1000) and Loading control antibody (Beta Actin, HY-P80438, 1/10000) was used in 5% non-fat milk in TBST at 4°C overnight. Goat Anti-Mouse/Rabbit IgG-HRP Secondary Antibody (1/10000) was used for 1 hour at room temperature. Western blot analysis of extracts from THP-1(lane 2(20μg), Jurkat (lane 3(20μg) and NIH3T3(lane 4(20μg) using FOXO1A (HY-P80132) Rabbit mAb. Proteins were transferred to a PVDF membrane and blocked with 5% non-fat milk in TBST for 2 hour at room temperature. The primary antibody (1/1000) and Loading control antibody (Beta Actin, HY-P80438, 1/10000) was used in 5% non-fat milk in TBST at 4°C overnight. Goat Anti-Mouse/Rabbit IgG-HRP Secondary Antibody (1/10000) was used for 1 hour at room temperature. Western blot analysis of extracts from THP-1(lane 2(20μg), Jurkat (lane 3(20μg) and NIH3T3(lane 4(20μg) using FOXO1A (HY-P80132) Rabbit mAb. Proteins were transferred to a PVDF membrane and blocked with 5% non-fat milk in TBST for 2 hour at room temperature. The primary antibody (1/1000) and Loading control antibody (Beta Actin, HY-P80438, 1/10000) was used in 5% non-fat milk in TBST at 4°C overnight. Goat Anti-Mouse/Rabbit IgG-HRP Secondary Antibody (1/10000) was used for 1 hour at room temperature.

BODIPY 493/503 purchased from MedChemExpress. Usage Cited in: Nat Commun. 2025 Feb 1;16(1):1241. [Abstract]

MedchemExpress Validation 01

MedchemExpress Validation 03

Western blot analysis of extracts from THP-1(lane 2(20μg), Jurkat (lane 3(20μg) and NIH3T3(lane 4(20μg) using FOXO1A (HY-P80132) Rabbit mAb. Proteins were transferred

MedchemExpress Validation 04

MedchemExpress Validation

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neuron+injury

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