Andrea Cossarizza

JC-1, but not DiOC6(3) or rhodamine 123, is a reliable fluorescent probe to assess ΔΨ changes in intact cells: implications for studies on mitochondrial functionality during apoptosis

The sensitivity and specificity of three fluorescent probes used for cytofluorimetric analysis of mitochondrial membrane potential (ΔΨ) were studied in the U937 human cell line. First, the role of plasmamembrane in influencing the binding of the probes to mitochondria has been investigated. The depolarization of plasmamembrane with high doses of extracellular KCl had no immediate effects on the loading of JC‐1, DiOC6(3) and rhodamine 123 (R123). However, after a few hours of culture in the presence of KCl, significant changes were observed only in cells stained with DiOC6(3). Second, a comparative study was performed concerning the effects of agents capable of collapsing ΔΨ. While adding FCCP to cell cultures resulted in consistent changes in the fluorescence emission of both JC‐1 and DiOC6(3) – but not of R123 – only cells stained with JC‐1 responded to valinomycin. On the whole, our data indicate that JC‐1 is a reliable probe for analyzing ΔΨ changes with flow cytometry, while the others show a lower sensitivity (R123), or a non‐coherent behaviour, due to a high sensitivity to changes in plasmamembrane potential [DiOC6(3)]. These data cast some doubts on those studies that, using fluorescent probes that have a low sensitivity to ΔΨ, hypothesized that the fall in ΔΨ is one of the early events, if not one of the main causes, of apoptosis.

THE IMMUNOLOGY OF EXCEPTIONAL INDIVIDUALS : THE LESSON OF CENTENARIANS

Centenarians are the best example of successful ageing, since they have escaped the major age-associated diseases, and most are in good mental and physical condition. Here, Claudio Franceschi and colleagues discuss how the study of their immune systems reveals that several immune parameters are well conserved, suggesting that a complex remodelling of most immune parameters occurs with age, rather than a unidirectional deterioration.

Control of apoptosis by the cellular ATP level

Apoptosis is a physiological form of cell death. Its causes and execution mechanisms are not clearly understood. Oxidative stress, nitric oxide and its congeners, Ca2+, proteases, nucleases, and mitochondria are considered mediators of apoptosis. At present their importance and exact role are elusive but it is clear that mitochondria are both the target and the source of oxidative stress, nitric oxide, and Ca2+. The mitochondrial membrane potential (ΔΨ), which is the driving force for mitochondrial ATP synthesis, declines during apoptosis, and maintenance of ΔΨ prevents apoptosis. Since apoptosis is highly regulated and involves the activity of hydrolytic enzymes, chromatin condensation and vesicle formation apoptosis is likely to have a high energy demand. We propose that the cellular ATP level is an important determinant for cell death. This hypothesis is supported by circumstantial evidence, is consistent with the available data, has a corrolary in aging, and is amenable to direct experimental testing particularly with flow cytometry as a promising tool.

OPA1 mutations associated with dominant optic atrophy impair oxidative phosphorylation and mitochondrial fusion

Dominant optic atrophy (DOA) is characterized by retinal ganglion cell degeneration leading to optic neuropathy. A subset of DOA is caused by mutations in the OPA1 gene, encoding for a dynamin-related GTPase required for mitochondrial fusion. The functional consequences of OPA1 mutations in DOA patients are still poorly understood. This study investigated the effect of five different OPA1 pathogenic mutations on the energetic efficiency and mitochondrial network dynamics of skin fibroblasts from patients. Although DOA fibroblasts maintained their ATP levels and grew in galactose medium, i.e. under forced oxidative metabolism, a significant impairment in mitochondrial ATP synthesis driven by complex I substrates was found. Furthermore, balloon-like structures in the mitochondrial reticulum were observed in galactose medium and mitochondrial fusion was completely inhibited in about 50% of DOA fibroblasts, but not in control cells. Respiratory complex assembly and the expression level of complex I subunits were similar in control and DOA fibroblasts. Co-immunoprecipitation experiments revealed that OPA1 directly interacts with subunits of complexes I, II and III, but not IV and with apoptosis inducing factor. The results disclose a novel link between OPA1, apoptosis inducing factor and the respiratory complexes that may shed some light on the pathogenic mechanism of DOA.

Quercetin and Cancer Chemoprevention

Several molecules present in the diet, including flavonoids, can inhibit the growth of cancer cells with an ability to act as “chemopreventers”. Their cancer-preventive effects have been attributed to various mechanisms, including the induction of cell-cycle arrest and/or apoptosis as well as the antioxidant functions. The antioxidant activity of chemopreventers has recently received a great interest, essentially because oxidative stress participates in the initiation and progression of different pathological conditions, including cancer. Since antioxidants are capable of preventing oxidative damage, the wide use of natural food-derived antioxidants is receiving greater attention as potential anti-carcinogens. Among flavonoids, quercetin (Qu) is considered an excellent free-radical scavenging antioxidant, even if such an activity strongly depends on the intracellular availability of reduced glutathione. Apart from antioxidant activity, Qu also exerts a direct, pro-apoptotic effect in tumor cells, and can indeed block the growth of several human cancer cell lines at different phases of the cell cycle. Both these effects have been documented in a wide variety of cellular models as well as in animal models. The high toxicity exerted by Qu on cancer cells perfectly matches with the almost total absence of any damages for normal, non-transformed cells. In this review we discuss the molecular mechanisms that are based on the biological effects of Qu, and their relevance for human health.

Lymphocytes and low-frequency electromagnetic fields.

Human lymphocytes have been used by several researchers to investigate the biological effect of electromagnetic fields (EMF). EMF modulate the response by lymphocytes to lectin stimulation. The size and direction of the effect depends both on the lymphocyte physiology and on the physical parameters characterizing the EMF. Lymphocytes have also been used to investigate the genotoxicity of EMF exposure.— Cadossi, R.; Bersani, F.; Cossarizza, A.; Zucchini, P.; Emilia, G.; Torelli, G.; Franceschi, C. Lymphocytes and low‐frequency electromagnetic fields. FASEB J. 6: 2667‐2674; 1992.

Extremely low frequency pulsed electromagnetic fields increase cell proliferation in lymphocytes from young and aged subjects.

The effect of the in vitro exposure to extremely low frequency pulsed electromagnetic fields (PEMFs) on the proliferation of human lymphocytes from 24 young and 24 old subjects was studied. The exposure to PEMFs during a 3-days culture period or during the first 24 hours was able to increase phytohaemagglutinin-induced lymphocyte proliferation in both groups. Such effect was greater in lymphocytes from old people which showed a markedly reduced proliferative capability and, after PEMF exposure, reached values of 3H-TdR incorporation similar to those of young subjects. The relevance of these data for the understanding and the reversibility of the proliferative defects in cells from aged subjects and for the assessment of risk related to the environmental exposure to PEMFs has to be considered.

Changes in circulating B cells and immunoglobulin classes and subclasses in a healthy aged population

The study of 87 adults of different ages, including 15 centenarians, selected for their healthy status, showed that profound changes of humoral immunity occur throughout life. In particuIar, a statistically significant age‐reIated increase of the serum level of immunoglobulin cIasses (IgG and IgA but not IgM) and IgG subcIasses (IgGI, 2 and 3, but not IgG4) was detected. A parallel age‐related decrease of circuIating B cells was also observed. The hypothesis of a complex derangement of B cell function and/or compartmentalization with age is put forward, together with the proposal that healthy centenarians (as representative of successful ageing) may be helpful in identifying the physiological age‐reIated modifications of the immune system.

Antiretroviral nucleoside and nucleotide analogues and mitochondria.

Mitochondria are the key organelles in energy production in all human cells except erythrocytes. Energy, in the form of ATP, is produced through the highly efficient oxidative phosphorylation pathway. Additionally, mitochondria perform a range of other biological functions and carry a number of factors involved in cell apoptosis. Both HIV infection and antiretroviral nucleoside analogues (nucleoside reverse transcriptase inhibitors; NRTI) are known to affect mitochondrial DNA content and other aspects of mitochondrial function. A number of important clinical events occurring in individuals with HIV infection and on antiretroviral therapy have been linked to mitochondrial injury and dysfunction. In vitro studies have demonstrated that NRTI may differ in their effects on mitochondria and may affect mitochondria in different cell lines in different ways. This is likely to influence the clinical syndromes associated with toxicity to these agents. Dideoxy-NRTI have the greatest affinity for mitochondrial DNA polymerase-a, the enzyme responsible for mitochondrial DNA replication, whereas other nucleoside analogues may influence mitochondrial function also through other mechanisms. These differences may be important in choosing techniques to evaluate the impact of antiretroviral agents on mitochondria.

Mitochondria alterations and dramatic tendency to undergo apoptosis in peripheral blood lymphocytes during acute HIV syndrome

Objective:To study alterations of mitochondrial membrane potential (Δψ) and the propensity to undergo apoptosis in peripheral blood lymphocytes (PBL) from subjects with acute HIV syndrome; and to evaluate possible modulations of these phenomena by antioxidants that can be used in therapy, such as N-acetyl-cysteine (NAC), nicotinamide (NAM), or L-acetyl-carnitine (LAC). Methods:Mitochondrial function and the tendency of PBL to undergo spontaneous apoptosis were studied on freshly collected PBL from patients with symptomatic, acute HIV-1 primary infection, which were cultured for different durations in the presence or absence of NAC, NAM or LAC. By a cytofluorimetric method allowing analysis of Δψ in intact cells, we studied the function of these organelles under the different conditions. PBL apoptosis was evaluated by the classic cytofluorimetric method of propidium iodide staining, capable of revealing the typical DNA hypodiploid peak. Results:Significant Δψ alterations and tendency to undergo apoptosis were present in PBL from the subjects we studied. Indeed, when cultured even for a few hours in the absence of any stimulus, a consistent number of cells died. However, the presence of even different levels of NAC, NAM or LAC was able to rescue most of them from apoptosis. Both a fall in Δψ and apoptosis were evident in PBL collected in the earliest phases of the syndrome (before seroconversion), and changed significantly after a few days. A significant correlation was found between spontaneous apoptosis and tumour necrosis factor (TNF)-α or p24 plasma levels, as well as between apoptosis and the percentages of circulating CD4+ or CD8+ T cells. Conclusions:PBL from patients with acute HIV syndrome are characterized by both significant mitochondrial alterations and a dramatic tendency to undergo apoptosis. The use of NAC, NAM or LAC seems to rescue cells through a protective effect on mitochondria, a well-known target for the action of TNF-α and for reactive oxygen species, the production of which is strongly induced by this cytokine. Thus, our data could provide the rationale for the use of such agents in addition to antiviral drugs in primary infection.