Induced differentiation of acute myeloid leukemia cells by activation of retinoid X and liver X receptors.

Use of all-trans retinoic acid (ATRA) as a differentiation agent has been limited to acute promyelocytic leukemia (APL) as non-APL leukemias are insensitive to ATRA. We recently demonstrated that the rexinoid, bexarotene, induces differentiation and therapeutic responses in patients with refractory AML. Rexinoids bind and activate retinoid X receptors (RXRs); however, rexinoids alone are incapable of activating retinoic acid receptor (RAR)/RXR complexes, suggesting that myeloid differentiation can occur independent of RAR. In this study, we demonstrate that rexinoid differentiation of AML cells is RAR independent and requires the expression of PU.1. Because of the promiscuousness of RXR with other nuclear receptors, myeloid differentiation by bexarotene with other nuclear receptor ligands was explored. Bexarotene cooperated with ATRA to enhance differentiation in some AML cell lines; however, the combination of bexarotene with the PPARγ agonist rosiglitazone did not. In contrast, bexarotene combined with liver X receptor (LXR) agonists, T0901317 or GW3965, induced potent differentiation and cytotoxicity in AML cell lines and primary human AML cells, but not in normal progenitor cells. These results suggest that RXR/LXR-regulated gene expression in normal cells is deregulated in AML cells and identifies a potential role for these agonists in differentiation therapy of non-APLs.

Imatinib resistance associated with BCR-ABL upregulation is dependent on HIF-1alpha-induced metabolic reprograming.

As chronic myeloid leukemia (CML) progresses from the chronic phase to blast crisis, the levels of BCR-ABL increase. In addition, blast-transformed leukemic cells display enhanced resistance to imatinib in the absence of BCR-ABL-resistance mutations. In this study, we show that when BCR-ABL-transformed cell lines were selected for imatinib resistance in vitro, the cells that grew out displayed a higher BCR-ABL expression comparable to the increase seen in accelerated forms of the disease. This enhanced expression of BCR-ABL was associated with an increased rate of glycolysis but with a decreased rate of proliferation. The higher level of BCR-ABL expression in the selected cells correlated with a nonhypoxic induction of hypoxia-inducible factor-1alpha (HIF-1alpha) that was required for cells to tolerate enhanced BCR-ABL signaling. HIF-1alpha induction resulted in an enhanced rate of glycolysis but with reduced glucose flux through both the tricarboxylic acid cycle and the oxidative arm of the pentose phosphate pathway (PPP). The reduction in oxidative PPP-mediated ribose synthesis was compensated by the HIF-1alpha-dependent activation of the nonoxidative PPP enzyme, transketolase, in imatinib-resistant CML cells. In both primary cultures of cells from patients exhibiting blast transformation and in vivo xenograft tumors, use of oxythiamine, which can inhibit both the pyruvate dehydrogenase complex and transketolase, resulted in enhanced imatinib sensitivity of tumor cells. Together, these results suggest that oxythiamine can enhance imatinib efficacy in patients who present an accelerated form of the disease.

A robust xenotransplantation model for acute myeloid leukemia.

Xenotransplantation of human acute myeloid leukemia (AML) in immunocompromised animals has been critical for defining leukemic stem cells. However, existing immunodeficient strains of mice have short life spans and low levels of AML cell engraftment, hindering long-term evaluation of primary human AML biology. A recent study suggested that NOD/LtSz-scid IL2Rgammac null (NSG) mice have enhanced AML cell engraftment, but this relied on technically challenging neonatal injections. Here, we performed extensive analysis of AML engraftment in adult NSG mice using tail vein injection. Of the 35 AML samples analyzed, 66% showed bone marrow engraftment over 0.1%. Further, 37% showed high levels of engraftment (>10%), with some as high as 95%. A 2-44-fold expansion of AML cells was often seen. Secondary and tertiary recipients showed consistent engraftment, with most showing further AML cell expansion. Engraftment did not correlate with French-American-British subtype or cytogenetic abnormalities. However, samples with FLT3 mutations showed a higher probability of engraftment than FLT3 wild type. Importantly, animals developed organomegaly and a wasting illness consistent with advanced leukemia. We conclude that the NSG xenotransplantation model is a robust model for human AML cell engraftment, which will allow better characterization of AML biology and testing of new therapies.

BCR/ABL induces chromosomal instability after genotoxic stress and alters the cell death threshold.

Earlier reports have suggested that the BCR/ABL oncogene, associated with chronic myeloid leukemia, induces a mutator phenotype; however, it is unclear whether this leads to long-term changes in chromosomes and whether the phenotype is found in primary chronic myelogeneous leukemia (CML) cells. We have addressed both these issues. BCR/ABL-expressing cell lines show an increase in DNA breaks after treatment with etoposide as compared to control cells. However, although BCR/ABL-expressing cell lines have an equivalent cell survival, they have an increase in chromosomal translocations after DNA repair as compared to control cells. This demonstrates that BCR/ABL expression decreases the fidelity of DNA repair. To see whether this is true in primary CML samples, normal CD34+ progenitor cells and CML progenitor cells were treated with etoposide. CML progenitor cells have equivalent survival but have an increase in DNA double-strand breaks (DSBs). Spectral karyotyping demonstrates new chromosomal translocations in CML cells, but not normal progenitor cells, consistent with error-prone DNA repair. Taken together, these data demonstrate that BCR/ABL enhances the accumulation of DSBs and alters the apoptotic threshold in CML leading to error-prone DNA repair.

Estudio comparado de dos selladores (Yodo y solución electrolizada pH neutro) para prevenir mastitis en ganado Holstein / Comparative study of two sealants (Iodine and pH neutral electrolyzed solution) to prevent mastitis in Holstein cattle

Es importante en sistemas de producción, determinar la presencia de mastitis su control para garantizar la calidad, lo que puede realizarse a través del conteo celular somático (CCS). En vacas con ubres sanas, es menor de 200,000 células/ml. La mastitis es factor de influencia en el CCS y cualquier medida para su prevención, favorece la calidad de la leche, como es el sellado de pezones después del ordeño. Considerando que los microorganismos patógenos generan resistencia a los desinfectantes, representa un reto contar con alternativas para su control, como las soluciones de superoxidación. El objetivo del presente trabajo fue determinar la eficacia de dos selladores yodo vs solución electrolizada superoxidada de pH neutro fase semisólida (gel), para prevenir mastitis en ganado Holstein. El trabajo se realizó en Uruétaro, municipio de Tarímbaro Michoacán. El periodo de estudio fue 21 días. La población en estudio estuvo conformada por 32 vacas, considerando número de parto menor a 4 y menor a 305 días en leche. La población objetivo fue de 10 animales, los cuales se distribuyeron al azar en dos grupos. Al grupo 1 se le aplicó yodo y al grupo 2 con gel (100 ml 25 mg cloruro de sodio). Después del ordeño, se procedió a sellar los pezones. Se realizaron 4 muestreos diagnósticos seriados con la técnica de Winsconsin (WMT), con intervalo de 7 días. Los resultados fueron analizados con un diseño completamente al azar utilizando la metodología de mínimos cuadrados generalizados. Las variables consideradas fueron: CCS, producción, número de lactancia y días en leche. El comportamiento de los tratamientos con respecto al inicio y al final del periodo de observación se encontró que el CCS fue de 60.8 por ciento más con respecto al inicio cuando se utilizó el yodo y -42.2 por ciento con el gel. El yodo mostró menos eficacia en relación con gel (p menor que 0.01), observando que el yodo, disminuye su eficacia para el control de CCS en ...

Nuclear export of human immunodeficiency virus type 1 Vpr is not required for virion packaging.

The human immunodeficiency virus type 1 Vpr protein is both packaged into virions and efficiently localized to the nucleus. In this report, we show that a significant fraction of Vpr also accumulates in the cytoplasm of virus-producing cells. Although Vpr shuttles between the nucleus and the cytoplasm, studies with an export-deficient Vpr mutant reveal that nuclear export is not required for virion incorporation.