solo para uso en investigación
Clofarabine DNA/RNA Synthesis inhibidor
Cat. No.S1218
Estructura química
Peso molecular: 303.68
Saltar a
Control de calidad
Lote:
Pureza:
99.90%
99.90
| Dianas relacionadas | HDAC PARP ATM/ATR DNA-PK WRN Topoisomerase PPAR Sirtuin Casein Kinase eIF |
|---|---|
| Otros DNA/RNA Synthesis Inhibidores | CX-5461 (Pidnarulex) B02 SCR7 Favipiravir (T-705) EED226 RK-33 BMH-21 Triapine (3-AP) Carmofur YK-4-279 |
Cultivo celular, tratamiento y concentración de trabajo
| Líneas celulares | Tipo de ensayo | Concentración | Tiempo de incubación | Formulación | Descripción de la actividad | PMID |
|---|---|---|---|---|---|---|
| K562 cell | Cytotoxicity assay | Compound was tested for cytotoxicity against K562 cell lines, IC50=0.003 μM | 1732556 | |||
| HEp-2 cell | Cytotoxicity assay | Compound was tested for cytotoxicity against HEp-2 cell lines, IC50=0.012 μM | 1732556 | |||
| CCRF-CEM cell lines | Cytotoxicity assay | Compound was tested for cytotoxicity against CCRF-CEM cell lines, IC50=0.05 μM | 1732556 | |||
| L1210 cell | Cytotoxicity assay | Compound was tested for cytotoxicity against L1210 cell lines, IC50=2.3 μM | 1732556 | |||
| NCI-H23 | Cytotoxicity assay | 5 days | Cytotoxicity against human NCI-H23 cells after 5 days by SRB assay, GI50=0.04μM | 19929004 | ||
| PC3 | Cytotoxicity assay | 5 days | Cytotoxicity against human PC3 cells after 5 days by SRB assay, GI50=0.063μM | 19929004 | ||
| BT549 | Cytotoxicity assay | 5 days | Cytotoxicity against human BT549 cells after 5 days by SRB assay, GI50=0.065μM | 19929004 | ||
| HCT15 | Cytotoxicity assay | 5 days | Cytotoxicity against human HCT15 cells after 5 days by SRB assay, GI50=0.18μM | 19929004 | ||
| NCI-H23 | Cytostatic assay | 5 days | Cytostatic activity against human NCI-H23 cells after 5 days by SRB assay, GI50=0.04μM | 21711054 | ||
| MT4 | Cytostatic assay | 5 days | Cytostatic activity against human MT4 cells after 5 days by SRB assay, GI50=0.051μM | 21711054 | ||
| PC3 | Cytostatic assay | 5 days | Cytostatic activity against human PC3 cells after 5 days by SRB assay, GI50=0.063μM | 21711054 | ||
| BT549 | Cytostatic assay | 5 days | Cytostatic activity against human BT549 cells after 5 days by SRB assay, GI50=0.065μM | 21711054 | ||
| A549 | Cytostatic assay | 5 days | Cytostatic activity against human A549 cells after 5 days by SRB assay, GI50=0.086μM | 21711054 | ||
| HCT116 | Cytostatic assay | 5 days | Cytostatic activity against human HCT116 cells after 5 days by SRB assay, GI50=0.106μM | 21711054 | ||
| DU145 | Cytostatic assay | 5 days | Cytostatic activity against human DU145 cells after 5 days by SRB assay, GI50=0.125μM | 21711054 | ||
| HCT15 | Cytostatic assay | 5 days | Cytostatic activity against human HCT15 cells after 5 days by SRB assay, GI50=0.18μM | 21711054 | ||
| Hs578 | Cytostatic assay | 5 days | Cytostatic activity against human Hs578 cells after 5 days by SRB assay, GI50=1.241μM | 21711054 | ||
| HL60 | Cytostatic assay | 48 hrs | Cytostatic activity against human HL60 cells after 48 hrs by MTT assay, IC50=0.1μM | 23820572 | ||
| A549 | Cytostatic assay | 48 hrs | Cytostatic activity against human A549 cells after 48 hrs by MTT assay, IC50=8μM | 23820572 | ||
| U373-MAGI | Function assay | 50 nM | 2 hrs | Potentiation of 5-Aza-C-induced antiviral activity against VSV-G pseudotyped HIV-1 NL4-3 infected in human U373-MAGI cells assessed as 5-Aza-C EC50 at 50 nM preincubated for 2 hrs followed by 5-Aza-C addition for 2 hrs and subsequent viral infection measu, EC50=30.4μM | 27117260 | |
| U373-MAGI | Antiviral assay | 50 nM | 4 hrs | Antiviral activity against VSV-G pseudotyped HIV-1 NL4-3 infected in human U373-MAGI cells assessed as reduction in viral infectivity at 50 nM incubated for 4 hrs prior to viral infection measured at 72 hrs post infection by flow cytometric analysis | 27117260 | |
| U373-MAGI | Function assay | 200 nM | 6 hrs | Reduction in dGTP level in human U373-MAGI cells at 200 nM after 6 hrs by LC-MS/MS analysis | 27117260 | |
| U373-MAGI | Function assay | 200 nM | 6 hrs | Reduction in dCTP level in human U373-MAGI cells at 200 nM after 6 hrs by LC-MS/MS analysis | 27117260 | |
| U373-MAGI | Function assay | 200 nM | 6 hrs | Reduction in dATP level in human U373-MAGI cells at 200 nM after 6 hrs by LC-MS/MS analysis | 27117260 | |
| U373-MAGI | Function assay | 50 nM | 2 hrs | Reduction in dCTP level in human U373-MAGI cells at 50 nM preincubated for 2 hrs followed by 5-aza-C addition measured after 4 hrs by LC-MS/MS analysis | 27117260 | |
| U373-MAGI | Function assay | 200 nM | 2 hrs | Reduction in dCTP level in human U373-MAGI cells at 200 nM preincubated for 2 hrs followed by 5-aza-C addition measured after 4 hrs by LC-MS/MS analysis relative to 5-aza-C | 27117260 | |
| U373-MAGI | Function assay | 50 nM | 2 hrs | Increase in 5-aza-dCTP/dCTP ratio in human U373-MAGI cells at 50 nM preincubated for 2 hrs followed by 5-aza-dC addition measured after 4 hrs by LC-MS/MS analysis relative to 5-aza-dC | 27117260 | |
| U373-MAGI | Function assay | 200 nM | 2 hrs | Increase in 5-aza-dCTP/dCTP ratio in human U373-MAGI cells at 200 nM preincubated for 2 hrs followed by 5-aza-dC addition measured after 4 hrs by LC-MS/MS analysis relative to 5-aza-dC | 27117260 | |
| U373-MAGI | Function assay | 200 nM | 2 hrs | Reduction in dRGU-TP level in human U373-MAGI cells at 200 nM preincubated for 2 hrs followed by 5-aza-C addition measured after 4 hrs by LC-MS/MS analysis | 27117260 | |
| U373-MAGI | Function assay | 200 nM | 2 hrs | Reduction in 5-aza-dCTP level in human U373-MAGI cells at 200 nM preincubated for 2 hrs followed by 5-aza-C addition measured after 4 hrs by LC-MS/MS analysis | 27117260 | |
| U373-MAGI | Function assay | 200 nM | 2 hrs | Reduction in dCTP level in human U373-MAGI cells at 200 nM preincubated for 2 hrs followed by 5-aza-dC addition measured after 4 hrs by LC-MS/MS analysis relative to 5-aza-dC | 27117260 | |
| U373-MAGI | Function assay | 50 nM | 2 hrs | Reduction in dCTP level in human U373-MAGI cells at 50 nM preincubated for 2 hrs followed by 5-aza-dC addition measured after 4 hrs by LC-MS/MS analysis relative to 5-aza-dC | 27117260 | |
| TC32 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for TC32 cells | 29435139 | |||
| DAOY | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for DAOY cells | 29435139 | |||
| SJ-GBM2 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for SJ-GBM2 cells | 29435139 | |||
| A673 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for A673 cells | 29435139 | |||
| SK-N-MC | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for SK-N-MC cells | 29435139 | |||
| BT-37 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for BT-37 cells | 29435139 | |||
| NB-EBc1 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for NB-EBc1 cells | 29435139 | |||
| LAN-5 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for LAN-5 cells | 29435139 | |||
| OHS-50 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for OHS-50 cells | 29435139 | |||
| MG 63 (6-TG R) | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for MG 63 (6-TG R) cells | 29435139 | |||
| NB1643 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Confirmatory screen for NB1643 cells | 29435139 | |||
| A673 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Confirmatory screen for A673 cells) | 29435139 | |||
| SK-N-MC | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Confirmatory screen for SK-N-MC cells | 29435139 | |||
| LAN-5 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Confirmatory screen for LAN-5 cells | 29435139 | |||
| SJ-GBM2 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Confirmatory screen for SJ-GBM2 cells | 29435139 | |||
| BT-37 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Confirmatory screen for BT-37 cells | 29435139 | |||
| TC32 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Confirmatory screen for TC32 cells | 29435139 | |||
| MG 63 (6-TG R) | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Confirmatory screen for MG 63 (6-TG R) cells | 29435139 | |||
| Rh30 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Confirmatory screen for Rh30 cells | 29435139 | |||
| Saos-2 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Confirmatory screen for Saos-2 cells | 29435139 | |||
| SJ-GBM2 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Orthogonal 3D viability screen for SJ-GBM2 cells | 29435139 | |||
| TC32 | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Orthogonal 3D viability screen for TC32 cells | 29435139 | |||
| MG 63 (6-TG R) | qHTS assay | qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Orthogonal 3D viability screen for MG 63 (6-TG R) cells | 29435139 | |||
| Granta | Cytotoxicity assay | 72 hrs | Cytotoxicity against human Granta cells assessed as decrease in cell viability after 72 hrs by MTT assay, IC50=0.017μM | 30176535 | ||
| HL60 | Cytotoxicity assay | 72 hrs | Cytotoxicity against human HL60 cells assessed as decrease in cell viability after 72 hrs by MTT assay, IC50=0.04μM | 30176535 | ||
| CCRF-CEM | Cytotoxicity assay | 72 hrs | Cytotoxicity against human CCRF-CEM cells assessed as decrease in cell viability after 72 hrs by MTT assay, IC50=0.044μM | 30176535 | ||
| RL | Cytotoxicity assay | 72 hrs | Cytotoxicity against human RL cells assessed as decrease in cell viability after 72 hrs by MTT assay, IC50=0.38μM | 30176535 | ||
| Haga clic para ver más datos experimentales de líneas celulares | ||||||
Información química, almacenamiento y estabilidad
| Peso molecular | 303.68 | Fórmula | C10H11ClFN5O3 |
Almacenamiento (Desde la fecha de recepción) | |
|---|---|---|---|---|---|
| Nº CAS | 123318-82-1 | Descargar SDF | Almacenamiento de soluciones madre |
|
|
| Sinónimos | Clolar | Smiles | C1=NC2=C(N=C(N=C2N1C3C(C(C(O3)CO)O)F)Cl)N | ||
Solubilidad
|
In vitro |
DMSO
: 60 mg/mL
(197.57 mM)
Water : Insoluble Ethanol : Insoluble |
Calculadora de Molaridad
Calculadora de Dilución
Calculadora de Peso Molecular
|
In vivo |
|||||
Calculadora de formulación in vivo (Solución clara)
Paso 1: Introduzca la información a continuación (Recomendado: Un animal adicional para tener en cuenta la pérdida durante el experimento)
mg/kg
g
μL
Paso 2: Introduzca la formulación in vivo (Esto es solo la calculadora, no la formulación. Por favor, contáctenos primero si no hay una formulación in vivo en la sección de Solubilidad.)
% DMSO
%
% Tween 80
% ddH2O
%DMSO
%
Resultados del cálculo:
Concentración de trabajo: mg/ml;
Método para preparar el líquido maestro de DMSO: mg fármaco predissuelto en μL DMSO ( Concentración del líquido maestro mg/mL, Por favor, contáctenos primero si la concentración excede la solubilidad del DMSO del lote del fármaco. )
Método para preparar la formulación in vivo: Tomar μL DMSO líquido maestro, luego añadirμL PEG300, mezclar y clarificar, luego añadirμL Tween 80, mezclar y clarificar, luego añadir μL ddH2O, mezclar y clarificar.
Método para preparar la formulación in vivo: Tomar μL DMSO líquido maestro, luego añadir μL Aceite de maíz, mezclar y clarificar.
Nota: 1. Por favor, asegúrese de que el líquido esté claro antes de añadir el siguiente disolvente.
2. Asegúrese de añadir el (los) disolvente(s) en orden. Debe asegurarse de que la solución obtenida, en la adición anterior, sea una solución clara antes de proceder a añadir el siguiente disolvente. Se pueden utilizar métodos físicos como el vórtice, el ultrasonido o el baño de agua caliente para ayudar a la disolución.
Mecanismo de acción
| Targets/IC50/Ki |
Ribonucleotide reductase
(Cell-free assay) 65 nM
|
|---|---|
| In vitro |
La Clofarabine es transportada eficientemente a las células a través de dos transportadores de nucleósidos facilitadores o equilibradores, hENT1 y hENT2, y un transportador de nucleósidos concentrador, hCNT253. Este compuesto es fosforilado de manera escalonada por quinasas citosólicas a los análogos de nucleótidos Clofarabine 5′-mono-, di- y trifosfato después de la entrada en las células, siendo el trifosfato de Clofarabine la forma activa. Los Clofarabine 5′-mono-, di- y trifosfato no son sustratos para los transportadores de nucleósidos y deben ser convertidos enzimáticamente por la 5′-nucleotidasa de nuevo a su forma de nucleósido desfosforilado para el transporte fuera de la célula. Este trifosfato de compuesto es un potente inhibidor de la ribonucleotide reductase (IC50 = 65 nM), presumiblemente uniéndose al sitio alostérico de la subunidad reguladora. También se ha demostrado que actúa directamente sobre las mitocondrias alterando el potencial transmembrana con liberación de citocromo c, factor inductor de apoptosis (AIF), factor 1 activador de la proteasa de apoptosis (APAF1) y caspasa 9 en el citosol. Este producto químico demuestra una fuerte inhibición del crecimiento in vitro y actividad citotóxica (valores de IC50 = 0,028–0,29 μM) en una amplia variedad de líneas celulares de leucemia y tumores sólidos. Se ha demostrado que aumenta la actividad de dCK en células HL60 y aumenta la formación de los mono-, di- y trifosfatos de ara-C en células K56236. Este compuesto (10 μM) inhibe la reparación iniciada por 4-hidroperoxiciclofosfamida (4-HC), con una inhibición máxima a concentraciones intracelulares de 5 μM en linfocitos de leucemia linfocítica crónica (LLC). Este (10 μM) combinado con 4-hidroperoxiciclofosfamida (4-HC) produce una muerte celular apoptótica más que aditiva que la suma de cada uno por separado. Este producto químico (1 μM) combinado con ara-C (10 μM) da como resultado una modulación bioquímica de ara-CTP y una destrucción celular sinérgica en células K562.
|
| In vivo |
La Clofarabine administrada por vía intraperitoneal tiene una actividad significativa contra una amplia variedad de xenoinjertos tumorales humanos implantados subcutáneamente en ratones atímicos desnudos o con inmunodeficiencia combinada grave.
|
Referencias |
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Información del ensayo clínico
(datos de https://clinicaltrials.gov, actualizado el 2024-05-22)
| Número NCT | Reclutamiento | Condiciones | Patrocinador/Colaboradores | Fecha de inicio | Fases |
|---|---|---|---|---|---|
| NCT05917405 | Recruiting | Acute Myeloid Leukemia in Remission |
Nantes University Hospital |
September 14 2023 | Phase 2 |
| NCT03609814 | Completed | Hematologic Malignancies|Nonmalignant Diseases|Immunodeficiencies|Hemoglobinopathies|Genetic Inborn Errors of Metabolism|Fanconi''s Anemia|Thalassemia|Sickle Cell Disease |
University of California San Francisco |
January 26 2016 | -- |
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