Acyclovir induces cell cycle perturbation and apoptosis in Jurkat leukemia cells, and enhances chemotherapeutic drug cytotoxicity.

AIMS AND METHODS: Many antiviral agents have been reported to present direct cytotoxic activity in cancer, showing antiproliferative and proapoptotic effects through different mechanisms. In the present study, we took into account the cytotoxic action of the antiviral drug acyclovir (ACV) on leukemia cells, by investigating cell cycle perturbations and apoptosis induction upon drug administration to three still unexplored cell lines, namely Jurkat, U937, and K562. At the same time, the cytotoxicity of cisplatin (CDDP) and 5­fluorouracil (5­FU) in combination with ACV was assessed, thus to evaluate if the antiviral agent could enhance cancer cell sensitivity to these chemotherapeutic drugs. FINDINGS AND SIGNIFICANCE: Our results showed that ACV cytotoxic action was maximum in Jurkat cells (acute T cell leukemia), which showed a dose- and time-dependent reduction of cell viability after drug exposure. The flow cytometric analysis of cell cycle revealed a delay/block in S phase and an increase of the sub-G1 peak upon ACV administration, thereby indicating apoptotic cell death. The activation of caspase-3 and the presence of nuclear DNA fragmentation confirmed the induction of apoptosis in ACV-treated cells. Interestingly, the pre-treatment of Jurkat cells with ACV for 72 h or 7 days increased CDDP and 5-FU cytotoxicity, suggesting enhanced leukemia cell sensitivity to these anticancer drugs.

Melatonin protects hippocampal HT22 cells from the effects of serum deprivation specifically targeting mitochondria.

Neurons contain a high number of mitochondria, these neuronal cells produce elevated levels of oxidative stress and live for a long time without proliferation; therefore, mitochondrial homeostasis is crucial to their health. Investigations have recently focused on mitochondrial dynamics revealing the ability of these organelles to change their distribution and morphology. It is known that mitochondrial fission is necessary for the transmission of mitochondria to daughter cells during mitosis and mitochondrial fragmentation has been used as an indicator of cell death and mitochondrial dysfunction. Oxidative stress is a trigger able to induce changes in the mitochondrial network. The aim of the present study was to determine the effects of melatonin on the mitochondrial network in HT22 serum-deprived cells. Our results showed that serum deprivation increased reactive oxygen species (ROS) content, promoted the activation of plasma membrane voltage-dependent anion channels (VDACs) and affected the expression of pDRP1 and DRP1 fission proteins. Moreover, parallel increases in apoptotic and autophagic features were found. Damaged and dysfunctional mitochondria are deleterious to the cell; hence, the degradation of such mitochondria through mitophagy is crucial to cell survival. Our results suggest that melatonin supplementation reduces cell death and restores mitochondrial function through the regulation of autophagy.

The "Journal of Functional Morphology and Kinesiology" Journal Club Series: Highlights on Recent Papers in Exercise-Induced Immune Response.

We are glad to introduce the ninth Journal Club. This edition is focused on several relevant studies published in the last few years in the field of Exercise-Induced Immune Response, chosen by our Editorial Board members and their colleagues. We hope to stimulate your curiosity in this field and to share with you the passion for sport seen also from the scientific point of view. The Editorial Board members wish you an inspiring lecture.