Home Cell Cycle CDK Inhibidor Roscovitine (Seliciclib)

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Roscovitine (Seliciclib) CDK Inhibidor

Cat. No.: S1153

Roscovitine es un potente y selectivo inhibidor de CDK para Cdc2, CDK2 y CDK5 con IC50 de 0,65 μM, 0,7 μM y 0,16 μM en ensayos libres de células. Muestra poco efecto sobre CDK4/6. Fase 2.
Roscovitine (Seliciclib) CDK Inhibidor Chemical Structure

Estructura química

Peso molecular: 354.45

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Control de calidad (Quality Control)

Lote: Pureza: 99.85%
99.85

Cultivo celular, tratamiento y concentración de trabajo
(Cell Culture, Treatment & Working Concentration)

Líneas celulares Tipo de ensayo Concentración Tiempo de incubación Formulación Descripción de la actividad PMID
LB771-HNC Growth Inhibition Assay IC50=48.9212 μM SANGER
LB2241-RCC Growth Inhibition Assay IC50=48.6202 μM SANGER
DU-4475 Growth Inhibition Assay IC50=48.4937 μM SANGER
LB2518-MEL Growth Inhibition Assay IC50=47.0448 μM SANGER
NCI-H209 Growth Inhibition Assay IC50=46.0115 μM SANGER
CGTH-W-1 Growth Inhibition Assay IC50=44.9697 μM SANGER
MS-1 Growth Inhibition Assay IC50=42.893 μM SANGER
GI-ME-N Growth Inhibition Assay IC50=42.6671 μM SANGER
DG-75 Growth Inhibition Assay IC50=42.6546 μM SANGER
MLMA Growth Inhibition Assay IC50=42.2787 μM SANGER
HT Growth Inhibition Assay IC50=42.0028 μM SANGER
LC-1F Growth Inhibition Assay IC50=41.5705 μM SANGER
NCI-H1882 Growth Inhibition Assay IC50=40.5998 μM SANGER
NTERA-S-cl-D1 Growth Inhibition Assay IC50=39.5842 μM SANGER
NCI-H345 Growth Inhibition Assay IC50=38.9106 μM SANGER
MONO-MAC-6 Growth Inhibition Assay IC50=38.2477 μM SANGER
RS4-11 Growth Inhibition Assay IC50=37.7069 μM SANGER
ML-2 Growth Inhibition Assay IC50=37.6712 μM SANGER
OPM-2 Growth Inhibition Assay IC50=37.2949 μM SANGER
LU-139 Growth Inhibition Assay IC50=37.1856 μM SANGER
COLO-684 Growth Inhibition Assay IC50=37.012 μM SANGER
MOLT-4 Growth Inhibition Assay IC50=36.3276 μM SANGER
TE-6 Growth Inhibition Assay IC50=36.3246 μM SANGER
TE-441-T Growth Inhibition Assay IC50=36.1148 μM SANGER
IMR-5 Growth Inhibition Assay IC50=35.3139 μM SANGER
K5 Growth Inhibition Assay IC50=35.0861 μM SANGER
TE-10 Growth Inhibition Assay IC50=34.9422 μM SANGER
NCI-H2141 Growth Inhibition Assay IC50=34.6533 μM SANGER
KGN Growth Inhibition Assay IC50=34.2524 μM SANGER
LP-1 Growth Inhibition Assay IC50=33.8908 μM SANGER
NCI-H64 Growth Inhibition Assay IC50=33.8597 μM SANGER
RKO Growth Inhibition Assay IC50=33.5969 μM SANGER
NCI-H526 Growth Inhibition Assay IC50=33.4936 μM SANGER
GOTO Growth Inhibition Assay IC50=32.9129 μM SANGER
Calu-6 Growth Inhibition Assay IC50=32.4745 μM SANGER
LOUCY Growth Inhibition Assay IC50=32.1253 μM SANGER
SK-N-FI Growth Inhibition Assay IC50=31.7535 μM SANGER
SIG-M5 Growth Inhibition Assay IC50=31.6833 μM SANGER
NKM-1 Growth Inhibition Assay IC50=31.1397 μM SANGER
NCI-SNU-1 Growth Inhibition Assay IC50=31.1059 μM SANGER
NCI-H82 Growth Inhibition Assay IC50=31.0135 μM SANGER
NCI-H510A Growth Inhibition Assay IC50=30.0329 μM SANGER
ES3 Growth Inhibition Assay IC50=29.9582 μM SANGER
BB30-HNC Growth Inhibition Assay IC50=29.9483 μM SANGER
KM12 Growth Inhibition Assay IC50=29.6239 μM SANGER
GI-1 Growth Inhibition Assay IC50=29.0113 μM SANGER
NOS-1 Growth Inhibition Assay IC50=28.9733 μM SANGER
TE-8 Growth Inhibition Assay IC50=28.908 μM SANGER
TE-9 Growth Inhibition Assay IC50=28.7969 μM SANGER
HL-60 Growth Inhibition Assay IC50=27.9869 μM SANGER
QIMR-WIL Growth Inhibition Assay IC50=27.9144 μM SANGER
KARPAS-299 Growth Inhibition Assay IC50=26.8646 μM SANGER
KURAMOCHI Growth Inhibition Assay IC50=26.8082 μM SANGER
BL-41 Growth Inhibition Assay IC50=25.9597 μM SANGER
NCI-H2126 Growth Inhibition Assay IC50=25.6529 μM SANGER
HOP-62 Growth Inhibition Assay IC50=25.4425 μM SANGER
IST-SL2 Growth Inhibition Assay IC50=24.5343 μM SANGER
HH Growth Inhibition Assay IC50=24.3819 μM SANGER
LS-513 Growth Inhibition Assay IC50=23.5179 μM SANGER
EB-3 Growth Inhibition Assay IC50=23.1831 μM SANGER
ACN Growth Inhibition Assay IC50=21.3389 μM SANGER
NOMO-1 Growth Inhibition Assay IC50=21.2008 μM SANGER
ES8 Growth Inhibition Assay IC50=21.06 μM SANGER
CESS Growth Inhibition Assay IC50=20.8549 μM SANGER
BL-70 Growth Inhibition Assay IC50=20.3274 μM SANGER
MHH-PREB-1 Growth Inhibition Assay IC50=20.0356 μM SANGER
BC-1 Growth Inhibition Assay IC50=19.1198 μM SANGER
LC4-1 Growth Inhibition Assay IC50=18.8734 μM SANGER
COLO-320-HSR Growth Inhibition Assay IC50=18.7688 μM SANGER
A101D Growth Inhibition Assay IC50=18.3208 μM SANGER
BC-3 Growth Inhibition Assay IC50=18.0305 μM SANGER
TGW Growth Inhibition Assay IC50=17.8124 μM SANGER
JAR Growth Inhibition Assay IC50=17.0152 μM SANGER
HD-MY-Z Growth Inhibition Assay IC50=16.8246 μM SANGER
NCI-H1304 Growth Inhibition Assay IC50=16.3601 μM SANGER
OS-RC-2 Growth Inhibition Assay IC50=15.8382 μM SANGER
OCI-AML2 Growth Inhibition Assay IC50=15.6482 μM SANGER
HCC1599 Growth Inhibition Assay IC50=14.5975 μM SANGER
SCC-3 Growth Inhibition Assay IC50=14.2956 μM SANGER
RPMI-6666 Growth Inhibition Assay IC50=13.9121 μM SANGER
MEG-01 Growth Inhibition Assay IC50=13.8379 μM SANGER
Raji Growth Inhibition Assay IC50=13.7894 μM SANGER
RPMI-8402 Growth Inhibition Assay IC50=13.6262 μM SANGER
GCIY Growth Inhibition Assay IC50=12.8613 μM SANGER
697 Growth Inhibition Assay IC50=12.6007 μM SANGER
D-247MG Growth Inhibition Assay IC50=12.3516 μM SANGER
NB1 Growth Inhibition Assay IC50=12.3308 μM SANGER
COR-L279 Growth Inhibition Assay IC50=12.2907 μM SANGER
LB831-BLC Growth Inhibition Assay IC50=11.5624 μM SANGER
ST486 Growth Inhibition Assay IC50=10.351 μM SANGER
SK-UT-1 Growth Inhibition Assay IC50=10.35 μM SANGER
BB65-RCC Growth Inhibition Assay IC50=9.97495 μM SANGER
KARPAS-422 Growth Inhibition Assay IC50=9.96336 μM SANGER
Becker Growth Inhibition Assay IC50=9.46082 μM SANGER
KS-1 Growth Inhibition Assay IC50=9.45785 μM SANGER
JiyoyeP-2003 Growth Inhibition Assay IC50=8.50264 μM SANGER
NCCIT Growth Inhibition Assay IC50=7.55482 μM SANGER
MRK-nu-1 Growth Inhibition Assay IC50=7.12969 μM SANGER
A3-KAW Growth Inhibition Assay IC50=5.76116 μM SANGER
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 15958589
LP-1 Apoptosis assay 30 uM 3 hrs Induction of apoptosis in human LP-1 cells at 30 uM after 3 hrs using TUNEL staining by flow cytometry 15958589
LP-1 Cytotoxicity assay 20 to 30 uM 24 hrs Cytotoxicity against human LP-1 cells assessed as reduction of cell viability at 20 to 30 uM treated for 24 hrs followed by washout measured after total 72 hrs growth period alamar blue assay relative to control 15958589
LP-1 Apoptosis assay 30 uM 1.5 hrs Induction of apoptosis in human LP-1 cells assessed as reduction of RNA polymerase 2 phosphoserine 2 level at 30 uM after 1.5 hrs by immunoblotting 15958589
LP-1 Apoptosis assay 30 uM 3 hrs Induction of apoptosis in human LP-1 cells assessed as reduction of Mcl-1 protein level at 30 uM after 3 hrs by immunoblotting 15958589
LP-1 Apoptosis assay 30 uM 3 to 5 hrs Induction of apoptosis in human LP-1 cells assessed as increase in level of cleaved PARP at 30 uM after 3 to 5 hrs by immunoblotting 15958589
NCI-H929 Apoptosis assay 30 uM 5 hrs Induction of apoptosis in human NCI-H929 cells assessed as increase in level of cleaved PARP at 30 uM after 5 hrs by immunoblotting 15958589
NCI-H929 Apoptosis assay 30 uM 1.5 hrs Induction of apoptosis in human NCI-H929 cells assessed as fast slow migrating hyperphosphorylated RNA polymerase 2O form at 30 uM after 1.5 hrs by immunoblotting 15958589
RPM18226 Apoptosis assay 30 uM 1.5 hrs Induction of apoptosis in human RPM18226 cells assessed as reduction of RNA polymerase 2 phosphoserine 2 level at 30 uM after 1.5 hrs by immunoblotting 15958589
RPM18226 Apoptosis assay 30 uM 3 hrs Induction of apoptosis in human RPM18226 cells assessed as reduction of Mcl-1 protein level at 30 uM after 3 hrs by immunoblotting 15958589
RPM18226 Apoptosis assay 30 uM 3 to 5 hrs Induction of apoptosis in human RPM18226 cells assessed as increase in level of cleaved PARP at 30 uM after 3 to 5 hrs by immunoblotting 15958589
NCI-H929 Apoptosis assay 30 uM 3 hrs Induction of apoptosis in human NCI-H929 cells assessed as changes in XIAP protein level at 30 uM after 3 hrs by immunoblotting 15958589
NCI-H929 Apoptosis assay 30 uM 3 hrs Induction of apoptosis in human NCI-H929 cells assessed as changes in survivin protein level at 30 uM after 3 hrs by immunoblotting 15958589
RPM18226 Apoptosis assay 30 uM 3 hrs Induction of apoptosis in human RPM18226 cells at 30 uM after 3 hrs using TUNEL staining by flow cytometry 15958589
NCI-H929 Apoptosis assay 30 uM 1.5 hrs Induction of apoptosis in human NCI-H929 cells assessed as reduction of RNA polymerase 2 phosphoserine 2 level at 30 uM after 1.5 hrs by immunoblotting 15958589
NCI-H929 Apoptosis assay 30 uM 1.5 hrs Induction of apoptosis in human NCI-H929 cells assessed as dephosphorylation of pRb at S249/T252 at 30 uM after 1.5 hrs by immunoblotting 15958589
NCI-H929 Cytotoxicity assay 20 to 30 uM 16 hrs Cytotoxicity against human NCI-H929 cells assessed as reduction of cell viability at 20 to 30 uM treated for 16 hrs followed by washout measured after total 72 hrs growth period alamar blue assay relative to control 15958589
NCI-H929 Apoptosis assay 30 uM 3 hrs Induction of apoptosis in human NCI-H929 cells assessed as reduction of Mcl-1 protein level at 30 uM after 3 hrs by immunoblotting 15958589
NCI-H929 Apoptosis assay 30 uM 3 hrs Induction of apoptosis in human NCI-H929 cells assessed as changes in Bcl-2 protein level at 30 uM after 3 hrs by immunoblotting 15958589
NCI-H929 Apoptosis assay 30 uM 3 hrs Induction of apoptosis in human NCI-H929 cells at 30 uM after 3 hrs using TUNEL staining by flow cytometry 15958589
NCI-H929 Apoptosis assay 30 uM 1.5 hrs Induction of apoptosis in human NCI-H929 cells assessed as reduction of RNA polymerase 2 phosphoserine 5 level at 30 uM after 1.5 hrs by immunoblotting 15958589
NCI-H929 Apoptosis assay 30 uM 1.5 hrs Induction of apoptosis in human NCI-H929 cells assessed as reduction of Hdm2 level at 30 uM after 1.5 hrs by immunoblotting 15958589
NCI-H929 Apoptosis assay 30 uM 1.5 hrs Induction of apoptosis in human NCI-H929 cells assessed as increase of p53 accumulation at 30 uM after 1.5 hrs by immunoblotting 15958589
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 21080703
HCT116 Function assay 30 to 40 umol/L 24 hrs Inhibition of cyclin A in human HCT116 cells assessed as decrease in protein level at 30 to 40 umol/L after 24 hrs by immunoblotting analysis 21080703
HCT116 Function assay 30 to 40 umol/L 24 hrs Inhibition of cyclin B in human HCT116 cells assessed as decrease in protein level at 30 to 40 umol/L after 24 hrs by immunoblotting analysis 21080703
HCT116 Function assay 30 to 40 umol/L 24 hrs Inhibition of cyclin D1 in human HCT116 cells assessed as decrease in protein level at 30 to 40 umol/L after 24 hrs by immunoblotting analysis 21080703
HCT116 Function assay 30 to 40 umol/L 24 hrs Inhibition of CDK2 in human HCT116 cells assessed as decrease in protein level at 30 to 40 umol/L after 24 hrs by immunoblotting analysis 21080703
HT-29 Function assay 2.5 to 40 uM 24 hrs Inhibition of retinoblastoma protein in human HT-29 cells assessed as reduction of cyclin A level at 2.5 to 40 uM after 24 hrs by immunoblotting 21417417
MCF7 Cell cycle assay 24 hrs Cell cycle arrest in human MCF7 cells assessed as accumulation at G2/M phase after 24 hrs using propidium iodide and BrdU staining by flow cytometry 21417417
RPMI8226 Cell cycle assay 24 hrs Cell cycle arrest in human RPMI8226 cells assessed as accumulation at G2/M phase after 24 hrs using propidium iodide and BrdU staining by flow cytometry 21417417
MCF7 Cell cycle assay 24 hrs Cell cycle arrest in human MCF7 cells assessed as decrease in S phase cell population after 24 hrs using propidium iodide and BrdU staining by flow cytometry 21417417
MCF7 Cell cycle assay 24 hrs Cell cycle arrest in human MCF7 cells assessed as accumulation at sub-G1 phase after 24 hrs using propidium iodide and BrdU staining by flow cytometry 21417417
RPMI8226 Cell cycle assay 24 hrs Cell cycle arrest in human RPMI8226 cells assessed as accumulation at sub-G1 phase after 24 hrs using propidium iodide and BrdU staining by flow cytometry 21417417
MCF7 Cell cycle assay 80 uM 24 hrs Cell cycle arrest in human MCF7 cells assessed as reduction of actively replicating DNA level at 80 uM after 24 hrs using propidium iodide and BrdU staining by flow cytometry 21417417
MCF7 Function assay 20 uM 24 hrs Induction of p53-dependent transcriptional activity in human MCF7 cells assessed as increase of p21 WAF1 level at 20 uM after 24 hrs by immunofluorescence assay 21417417
RPMI8226 Cell cycle assay 24 hrs Cell cycle arrest in human RPMI8226 cells assessed as decrease in S phase cell population after 24 hrs using propidium iodide and BrdU staining by flow cytometry 21417417
RPMI8226 Cell cycle assay 80 uM 24 hrs Cell cycle arrest in human RPMI8226 cells assessed as reduction of actively replicating DNA level at 80 uM after 24 hrs using propidium iodide and BrdU staining by flow cytometry 21417417
A549 Apoptosis assay 2 uM 48 hrs Induction of apoptosis in human A549 cells assessed as DNA fragmentation at 2 uM after 48 hrs by agarose gel electrophoresis 23623491
Sf9 Function assay 10 mins Inhibition of His-6-tagged recombinant human CDK2/cyclinE expressed in baculovirus-infected sf9 cells using histone H1 as substrate after 10 mins by liquid scintillation counting in presence of [gamma-32P]ATP, IC50 = 0.1 μM. 24417566
BJ Function assay 10 uM 10 days Suppression of senescence in human BJ cells assessed as increase in cell number at 10 uM after 10 days by senescence reversal assay 24681986
BJ Function assay 10 uM 10 days Inhibition of ataxia telangiectasia-mutated in human BJ cells assessed as increase in cell number at 10 uM after 10 days by senescence reversal assay 24681986
MCF7 Function assay 10 uM 10 mins Sensitization of infrared-induced DNA damage in human MCF7 cells assessed as reduction in colony formation at 10 uM pretreated for 10 mins followed by irradiation for 4 hrs measured after 10 days by crystal violet staining analysis 26851505
Caco2 Cell cycle assay Cell cycle arrest in human Caco2 cells assessed as accumulation at G1/S phase by Hoechst staining based fluorescence assay 28214231
HaCaT Cell cycle assay Cell cycle arrest in human HaCaT cells assessed as accumulation at G1/S phase by Hoechst staining based fluorescence assay 28214231
HuH7 Cell cycle assay Cell cycle arrest in human HuH7 cells assessed as accumulation at G1/S phase by Hoechst staining based fluorescence assay 28214231
PC3 Cell cycle assay Cell cycle arrest in human PC3 cells assessed as accumulation at G2/M phase by Hoechst staining based fluorescence assay 28214231
MDA-MB-231 Cell cycle assay Cell cycle arrest in human MDA-MB-231 cells assessed as accumulation at G1/S phase by Hoechst staining based fluorescence assay 28214231
HCT116 Cell cycle assay Cell cycle arrest in human HCT116 cells assessed as accumulation at G1/S phase by Hoechst staining based fluorescence assay 28214231
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 28557430
A673 qHTS assay qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for A673 cells 29435139
DAOY qHTS assay qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for DAOY 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
SJ-GBM2 qHTS assay qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for SJ-GBM2 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
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 30199702
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Información química, almacenamiento y estabilidad (Chemical Information, Storage & Stability)

Peso molecular 354.45 Fórmula

C19H26N6O

 Almacenamiento (Desde la fecha de recepción)
Nº CAS 186692-46-6 Descargar SDF Almacenamiento de soluciones madre

Sinónimos CYC202, Seliciclib, R-roscovitine Smiles CCC(CO)NC1=NC(=C2C(=N1)N(C=N2)C(C)C)NCC3=CC=CC=C3

Solubilidad (Solubility)

In vitro
Lote:

DMSO : 71 mg/mL (200.31 mM)
(El DMSO contaminado con humedad puede reducir la solubilidad. Usar DMSO fresco y anhidro.)

Ethanol : 71 mg/mL

Water : Insoluble

Calculadora de Molaridad

Masa Concentración Volumen Peso molecular
Calculadora de Dilución Calculadora de Peso Molecular

In vivo
Lote:

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 (Mechanism of Action)

Targets/IC50/Ki
CDK5/p35
(Cell-free assay)
0.16 μM
Cdc2/CyclinB
(Cell-free assay)
0.65 μM
CDK2/CyclinA
(Cell-free assay)
0.7 μM
CDK2/CyclinE
(Cell-free assay)
0.7 μM
ERK2
(Cell-free assay)
14 μM
In vitro

Roscovitine muestra una alta eficiencia y alta selectividad hacia algunas quinasas dependientes de ciclina con IC50 de 0,65, 0,7, 0,7 y 0,16 μM para cdc2/ciclina B, cdk2/ciclina A, cdk2/ciclina E y cdk5/p53, respectivamente. Este compuesto inhibe reversiblemente la transición profase/metafase en el rango micromolar de ovocitos de estrella de mar y embriones de erizo de mar, inhibe la actividad in vitro del factor promotor de la fase M y la síntesis de ADN in vitro en extractos de huevos de Xenopus, y suprime la proliferación de líneas celulares de mamíferos con una IC50 promedio de 16 μM. En las células mesangiales, produce una reducción dosis-dependiente de la actividad de CDK2 que, a concentraciones de 7,5, 12,5 y 25 mM, este químico causa una disminución del 25, 50% y 100% en la actividad de CDK2, respectivamente. Un estudio reciente muestra que este compuesto inhibe la actividad de la quinasa cdk5, la proliferación celular, el desarrollo multicelular y la translocación nuclear de cdk5 en Dictyostelium discoideum, sin afectar la expresión de la proteína cdk5 durante el crecimiento axénico.

Ensayo de quinasa
Enzimas
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In vivo

Roscovitine, a una dosis de 50 mg/kg, inhibe significativamente el crecimiento de los xenoinjertos de la familia de tumores de Ewing (ESFT). Este compuesto mejora el efecto antitumoral de la doxorrubicina sin aumentar la toxicidad con un mecanismo que implica el arresto del Cell Cycle en lugar de la apoptosis en ratones desnudos con xenoinjertos MCF7 establecidos.

Referencias
  • [4] https://pubmed.ncbi.nlm.nih.gov/16230394/
  • [5] https://pubmed.ncbi.nlm.nih.gov/19003963/

Aplicaciones (Applications)

Métodos Biomarcadores Imágenes PMID
Western blot p-Rb / p-CDK2 / CDK2 / Cyclin D1 / Cyclin A2 / ERα / ERβ/ AIB1 / PELP1 pT231-tau / pS202-tau / tau
S1153-WB1
21834972
Immunofluorescence E2F1 / FASN / Bmi1 / Cyclin D2 / CDK2 / CDK4 CDK1 / Smek2 / FUBP1 / Cdc20
S1153-IF1
20890301
Growth inhibition assay Cell viability
S1153-viability1
29996940

Información del ensayo clínico (Clinical Trial Information)

(datos de https://clinicaltrials.gov, actualizado el 2024-05-22)

Número NCT Reclutamiento Condiciones Patrocinador/Colaboradores Fecha de inicio Fases
NCT02649751 Terminated
Cystic Fibrosis
University Hospital Brest|ManRos Therapeutics|Cyclacel Pharmaceuticals Inc.
 February 22 2016 Phase 2

Preguntas frecuentes (Frequently Asked Questions)

Pregunta 1:
How can I reconstitute it for in vivo studies?

Respuesta:
It in 1% DMSO+10% Tween 80+20% N-N-dimethylacetamide+PEG 400 is a clear solution which is okay for injection. And this compound in 1% DMSO+30% polyethylene glycol+1% Tween 80 at 30mg/ml is a suspension, which is fine for oral gavage.