Early administration of peroxisomicine A1 (T-514 extracted from K. parvifolia seeds) causes necrosis of implanted TC-1 cells without affecting target organs in a murine model / La administración temprana de peroxisomicina A1 (T-514 extraída de las semillas de K. parvifolia)causa necrosis de células TC-1 implantadas sin afectar órganos blanco en un modelo murino

Peroxisomicine A1 (PA1), one of the toxins isolated from seeds of plants of the Karwinskia genus, whose targets organs are the liver, kidney, and lungs. There is a selective toxicity in vitro to cancer-cell lines derived from the lungs, liver, and colon, compared to normal cell lines. PA1 caused apoptosis in several cancer-cell lines in culture. In toxic doses to rodents, it causes extensive apoptosis in the liver, kidney, and lungs. In our study we were interested in evaluating, for the first time, the morphological effects of administration of PA1 to implanted TC-1 cells and in the target organs in vivo. The TC-1 cells were cultured and injected into the hind limb of C57BL-6 mice. The animals were divided into 3 groups; those treated with four doses of 1 mg/kg each of PA1, the untreated control, and the vehicle-control groups. All mice were killed 10 days after cell implantation. Samples were obtained from TC-1 cells at the implantation site and from the liver, kidney, and lungs. The samples were processed for examination under light and electron microscopy. In the PA1-treated group, the TC-1 cells had necrosis, whereas in the control groups the tumor cells were undamaged. The target organs did not show any lesions. We demonstrated for the first time that there is a selective toxic effect of PA1 on the TC-1 cells in vivo.

Peroxisomicina A1 (PA1), una de las toxinas aisladas de las semillas de plantas del género Karwinskia, cuyos órganos blanco son hígado, riñón y pulmón. Hay una toxicidad selectiva in vitro contra líneas celulares cancerosas derivadas de pulmón, hígado y colon, comparadas con líneas celulares normales. PA1 causa apoptosis en varias líneas celulares malignas en cultivo. En dosis tóxicas a roedores, causa extensa apoptosis en hígado, riñón y pulmón. En nuestro estudio, estuvimos interesados en evaluar por primera vez los efectos morfológicos de la administración temprana de PA1 sobre células TC-1 implantadas y los órganos blanco in vivo. Las células TC-1 fueron cultivadas e implantadas en la extremidad posterior de ratones C57BL-6. Los animales fueron divididos en tres grupos: tratado con cuatro dosis de 1 mg/kg de peso de PA1, control sin tratamiento y control vehículo. Todos los animales fueron sacrificados 10 días posterior al implante de las células. Se colectaron muestras del sitio del implante de las células TC-1 y de hígado, riñón y pulmón. Las muestras fueron procesadas para su análisis a microscopía de luz y microscopia electrónica de transmisión. En el grupo tratado con PA1, las células TC-1 presentaron necrosis, mientras que en los grupos control las células tumorales se observaron sin daño. Los órganos blanco no mostraron lesión alguna. Demostramos por primera vez que existe un efecto tóxico selectivo de PA1 sobre las células TC-1 in vivo.

JNK inhibitor SP600125 promotes the formation of polymerized tubulin, leading to G2/M phase arrest, endoreduplication, and delayed apoptosis

The JNK inhibitor SP600125 strongly inhibits cell proliferation in many human cancer cells by blocking cell-cycle progression and inducing apoptosis. Despite extensive study, the mechanism by which SP600125 inhibits mitosis-related effects in human leukemia cells remains unclear. We investigated the effects of SP600125 on the inhibition of cell proliferation and the cell cycle, and on microtubule dynamics in vivo and in vitro. Treatment of synchronized leukemia cells with varying concentrations of SP600125 results in significant G2/M cell cycle arrest with elevated p21 levels, phosphorylation of histone H3 within 24 h, and endoreduplication with elevated Cdk2 protein levels after 48 h. SP600125 also induces significant abnormal microtubule dynamics in vivo. High concentrations of SP600125 (200 microMeter) were required to disorganize microtubule polymerization in vitro. Additionally, SP600125-induced delayed apoptosis and cell death was accompanied by significant poly ADP-ribose polymerase (PARP) cleavage and caspase-3 activity in the late phase (at 72 h). Endoreduplication showed a greater increase in ectopic Bcl-2-expressing U937 cells at 72 h than in wild-type U937 cells without delayed apoptosis. These results indicate that Bcl-2 suppresses apoptosis and SP600125-induced G2/M arrest and endoreduplication. Therefore, we suggest that SP600125 induces mitotic arrest by inducing abnormal spindle microtubule dynamics.