Transcriptome-based identification of lovastatin as a breast cancer stem cell-targeting drug.

BACKGROUND: Breast cancer is a neoplastic disease with high morbidity and mortality in women worldwide. Breast cancer stem cells (CSCs) have a significant function in tumor growth, recurrence, and therapeutic resistance. Thus, CSCs have been pointed as targets of new therapies for breast cancer. Herein, we aimed to repurpose certain drugs as breast CSC-targeting agents. METHODS: We compared a consensus breast CSC signature with the transcriptomic changes that were induced by over 1300 bioactive compounds using Connectivity Map. The effects of the selected drugs on SOX2 promoter transactivation, SOX2 expression, viability, clonogenicity, and ALDH activity in breast cancer cells were analyzed by luciferase assay, western blot, MTT assay, mammosphere formation assay, and ALDEFLUOR® test, respectively. Gene Set Enrichment Analysis (GSEA) was performed using the gene expression data from mammary tumors of mice that were treated with lovastatin. RESULTS: Five drugs (fasudil, pivmecillinam, ursolic acid, 16,16-dimethylprostaglandin E2, and lovastatin) induced signatures that correlated negatively with the query CSC signature. In vitro, lovastatin inhibited SOX2 promoter transactivation, and reduced the efficiency of mammosphere formation and the percentage of ALDH+ cells. Mevalonate mitigated the effects of lovastatin, suggesting that the targeting of CSCs by lovastatin was mediated by the inhibition of its reported target, 3-hydroxy-3-methyl-glutaryl-coenzyme A reductase (HMGCR). By GSEA, lovastatin downregulated genes that are involved in stemness and invasiveness in mammary tumors, corroborating our in vitro findings. CONCLUSION: Lovastatin is a breast CSC-targeting drug. The inhibition of HMGCR might develop new adjuvant therapeutic strategies for breast tumors.

Guide for Selection of Relevant Cell Lines During the Evaluation of new Anti-Cancer Compounds.

BACKGROUND: Human cancer cell lines are valuable models for anti-cancer drug development. Although all cancer cells share common biological features, each cancer cell line has unique genotypic/ phenotypic characteristics that affect drug response. Thus, the information obtained with a specific cancer cell line cannot be easily extrapolated to other cancer cells. Consequently, cell line selection during experimental design is critical for providing proper and clinically relevant structure-activity analysis. METHODS: Herein, we critically review the use of cancer cell lines as tools for activity analysis by comparing two different scenarios: i) the use of multiple cancer cell lines, with the NCI-60 Program as the most representative example; and, ii) the selection of a single cell line with specific biological characteristics that match the rationale of compound design. RESULTS: Considering that most laboratories evaluate the activity of new compounds using few cell lines, we provide a systematic strategy for selection based on the expression levels and genetic status of the target and the effectiveness of target inhibition or silencing. We exemplify the use of public databases for data retrieval and analysis as well as the critical comparison of such information with published results. CONCLUSION: This approach refines cell line selection, avoiding the perpetuation of published poor selection and enhancing the relevance of the results.

Fertilidad masculina modulada por melatonina / Male fertility regulated by melatonin

La melatonina en algunos países se usa desde hace mucho tiempo para reducir los síntomas de algunas enfermedades neuropsiquiátricas infantiles. En adultos se toma primordialmente para combatir problemas de trastornos del sueño. Por sus propiedades antioxidantes también ha sido utilizada como coadyuvante para contrarrestar algunos tipos de cáncer. Esta hormona es usada en cremas y bloqueadores solares para la piel que prometen el antienvejecimiento celular. Los efectos secundarios producidos por el uso prologado de la melatonina no están del todo claros. Con el propósito de conocer si el uso crónico de esta hormona altera la reproducción y los eventos que a ésta subyacen (como lo es la fertilidad), se propuso revisar la influencia que tiene sobre el eje reproductor de mamíferos masculinos, incluyendo al ser humano.

In some countries melatonin is chronically used to reduce the symptoms of certain neuropsychiatric diseases in children. Adults consume it mainly to treat sleep disorders. Due to its antioxidant properties, it has also been used in the treatment of some types of cancer. This hormone is used in dermal creams and sunscreens, which promise an antiaging effect on cells. Side effects provoked by long-term use of melatonin are not completely clear. In order to know whether the chronic use of this hormone alters reproduction and the events underlying it, fertility for instance, a review of the influence that melatonin has on the reproductive axis of male mammals, including humans, was proposed.

Melatonin attenuates the decrement of dendritic protein MAP-2 immuno-staining in the hippocampal CA1 and CA3 fields of the aging male rat.

Neuronal death during brain aging results, at least in part, from the disruption of synaptic connectivity caused by oxidative stress. Synaptic elimination might be caused by increased instability of the neuronal processes. In vitro evidence shows that melatonin increases MAP-2 expression, a protein that improves the stability of the dendritic cytoskeleton, opening the possibility that melatonin could prevent synaptic elimination by increasing dendritic stability. One way to begin exploring this issue in vivo is to evaluate whether long-term melatonin treatment changes the intensity of MAP-2 immuno-staining in areas commonly afflicted by aging that are rich in dendritic processes. Accordingly, we evaluated the effects of administering melatonin for 6 or 12 months on the intensity of MAP-2 immuno-staining in the strata oriens and lucidum of the hippocampal CA1 and CA3 fields of aging male rats, through semi-quantitative densitometry. Melatonin treated rats showed a relative increment in the intensity of MAP-2 immuno-staining in both regions after 6 or 12 months of treatment, as compared with age matched control rats. Although melatonin untreated and treated rats showed a decrease of MAP-2 immuno-staining in the hippocampus with increasing age, such decrement was less pronounced following melatonin treatment. These findings were confirmed by qualitative Western blot analyses. The melatonin effect seems specific because MAP-2 staining in the primary somatosensory cortex was not affected by the treatment. Thus, chronic melatonin administration increases MAP-2 immuno-staining and attenuates its decay in the adult aging hippocampus. These results are compatible with the idea that melatonin could improve dendritic stability and thus diminish synaptic elimination in the aging brain.