Antonio Mastino

p73 in Cancer

p73 is a tumor suppressor belonging to the p53 family of transcription factors. Distinct isoforms are transcribed from the p73 locus. The use of 2 promoters at the N-terminus allows the expression of an isoform containing (TAp73) or not containing (ΔNp73) a complete N-terminal transactivation domain, with the latter isoform capable of a dominant negative effect over the former. In addition, both N-terminal variants are alternatively spliced at the C-terminus. TAp73 is a bona fide tumor suppressor, being able to induce cell death and cell cycle arrest; conversely, ΔNp73 shows oncogenic properties, inhibiting TAp73 and p53 functions. Here, we discuss the latest findings linking p73 to cancer. The generation of isoform specific null mice has helped in dissecting the contribution of TA versus ΔNp73 isoforms to tumorigenesis. The activity of both isoforms is regulated transcriptionally and by posttranslational modification. p73 dysfunction, particularly of TAp73, has been associated with mitotic abnormalities, which may lead to polyploidy and aneuploidy and thus contribute to tumorigenesis. Although p73 is only rarely mutated in cancer, the tumor suppressor actions of TAp73 are inhibited by mutant p53, a finding that has important implications for cancer therapy. Finally, we discuss the expression and role of p73 isoforms in human cancer, with a particular emphasis on the neuroblastoma cancer model. Broadly, the data support the hypothesis that the ratio between TAp73 and ΔNp73 is crucial for tumor progression and therapeutic response.

The activation of human endogenous retrovirus K (HERV-K) is implicated in melanoma cell malignant transformation

Melanoma development is a multi-step process arising from a series of genetic and epigenetic events. Although the sequential stages involved in progression from melanocytes to malignant melanoma are clearly defined, our current understanding of the mechanisms leading to melanoma onset is still incomplete. Growing evidence show that the activation of endogenous retroviral sequences might be involved in transformation of melanocytes as well as in the increased ability of melanoma cells to escape immune surveillance. Here we show that human melanoma cells in vitro undergo a transition from adherent to a more malignant, non-adherent phenotype when exposed to stress conditions. Melanoma-derived non-adherent cells are characterized by an increased proliferative potential and a decreased expression of both HLA class I molecules and Melan-A/MART-1 antigen, similarly to highly malignant cells. These phenotypic and functional modifications are accompanied by the activation of human endogenous retrovirus K expression (HERV-K) and massive production of viral-like particles. Down-regulation of HERV-K expression by RNA interference prevents the transition from the adherent to the non-adherent growth phenotype in low serum. These results implicate HERV-K in at least some critical steps of melanoma progression.

Of the three tegument proteins that package mRNA in herpes simplex virions, one (VP22) transports the mRNA to uninfected cells for expression prior to viral infection

An earlier report has shown that herpes simplex virus 1 virions package RNA. Experiments designed to reveal the identity of the virion proteins capable of binding the RNA and to show whether the mRNA carried in the newly infected cells was expressed showed the following: (i) 32P-labeled riboprobe generated by in vitro transcription of the US8.5 ORF bound three proteins identified as the products of US11, UL47, and UL49 (VP22) genes. (ii) Viral RNA was bound to UL47 or US11 proteins immune precipitated from cells transduced with baculoviruses expressing UL47 or US11 and then superinfected with HSV-1 under conditions that blocked DNA synthesis and assembly of virions. (iii) Virions were purified from cells transduced with a baculovirus encoding a US8.5 protein fused to green fluorescent protein and superinfected with an HSV-1 mutant lacking the US8–12 genes. HEp-2 cells infected with these virions expressed the chimeric protein in ≈1% of infected cells. (iv) In mixed cultures, untreated Vero cells acquired the mRNA encoding the green fluorescent–US8.5 chimeric protein from HEp-2 cells doubly transduced with the genes encoding VP22 and the chimeric protein. The transfer was RNase sensitive and VP22 dependent, indicating that the RNA encoded by the chimeric gene was transferred to Vero cells as mRNA. We conclude that (i) three virion proteins are capable of binding RNA; (ii) the packaged RNA can be expressed in newly infected cells; and (iii) the UL47 protein was earlier reported to shuttle from nucleus to the cytoplasm and may transport RNA. VP22 thus appears to be a member of a new class of viral proteins whose major function is to bind and transport infected cell mRNA to uninfected cells to create the environment for effective initiation of infection.

Impaired apoptosis in mitogen-stimulated lymphocytes of patients with multiple sclerosis.

We investigated the sensitivity to cell death of peripheral blood mononuclear cells (PBMCs) from patients with multiple sclerosis (MS). PBMCs from MS patients, following PHA stimulation, were less sensitive to cell death than those from healthy donors (mean +/- s.e.m., 22.5 +/- 1.9 in MS patients vs 36.5 +/- 2.8 in healthy controls; p = 0.0003). However, when Fas-agonist antibody was added, the increase in respect to apoptosis induced by mitogen alone was even higher in MS patients than in controls. In addition, PHA-activated PBMCs from MS patients showed higher surface expression of Fas than controls, while Bcl-2 expression was decreased. This finding raised the question of whether an impaired generation of apoptotic signals may be contributing to the immune component of MS.

Identification of nuclei from apoptotic, necrotic, and viable lymphoid cells by using multiparameter flow cytometry.

BACKGROUND Methods widely used to detect apoptosis do not allow us to easily distinguish between nuclei from viable or necrotic cells. Even if apoptosis and necrosis seem to occur as alternatives at the single cell level, they could be present simultaneously in a cell population much more frequently than expected. For this reason, attention was focused on attempting to recognize, by multiparameter flow cytometry, the characteristics of viable cells and of apoptotic or necrotic dead cells. METHODS Apoptosis and necrosis were induced in vitro in murine thymocytes and lymphocytes from adult peripheral blood by using dexamethasone or prostaglandin E2 treatment and heat shock at 60 degrees C or hydrogen peroxide, respectively. Traditional methods, such as DNA gel electrophoresis and propidium iodide staining followed by single-fluorescence analysis or annexin-V-fluorescein isothiocyanate plus propidium iodide staining by using flow cytometry, were compared with a new method. This method consisted of combined light-scatter and red fluorescence analysis by flow cytometry after isolation of nuclei by hypotonic solution as well as high-dose detergent treatment and DNA staining with propidium iodide. RESULTS Results showed that, although traditional methods such as DNA-gel electrophoresis and single-parameter fluorescence flow cytometry analysis were unable, as expected, to discriminate among viability, apoptosis, and necrosis, our new method has enabled us to easily identify nuclei from viable, apoptotic, and necrotic cells. Results obtained by using our method were comparable to those obtained by using two-color analysis of cells after propidium iodide/annexin V staining. CONCLUSIONS A highly reproducible, inexpensive, rapid, and easily accessible method of analysis has been developed for simultaneously detecting apoptosis and necro sis.

Synergistic effect of thymosin α1 and αβ-interferon on NK activity in tumor-bearing mice

We have investigated the possibility of thymosin alpha 1 (TH) cooperating with alpha beta-interferon (IFN) in boosting natural killer (NK) activity in tumor-bearing, immunosuppressed mice in vivo. Treatment with a single injection of 30,000 IU of IFN 24 h before testing enhanced NK activity in tumor-bearing mice if the IFN was administered 9 days after tumor inoculation, when the animals have normal NK responsiveness. On the other hand, the same treatment led to lower or no improvement of NK responses if the treatment was given 13 or 17 days after tumor inoculation, at a time when tumor growth causes immunosuppression. However, combination treatment with TH (200 micrograms/kg) for 4 days, followed by IFN was found to restore normal NK cell activity. Selective depletion of antigen-positive cells showed that killer cells stimulated by combination treatment with TH and IFN seem to bear phenotypic characteristics of NK cells. These studies provide the first documentation of a novel combination approach to reconstitution of immunosuppressed tumor-bearing mice using TH and IFN. We hypothesize that TH restores NK boosting activity by IFN by effecting the differentiation/induction of precursor populations of IFN-responsive cells.

Primary macrophages infected by human immunodeficiency virus trigger CD95-mediated apoptosis of uninfected astrocytes

Infection of macrophages (M/M) by human immunodeficiency virus (HIV) is a main pathogenetic event leading to neuronal dysfunction and death in patients with AIDS dementia complex. Alteration of viability of neurons and astrocytes occurs in vivo even without their infection, thus it is conceivable that HIV‐infected M/M may affect viability of such cells even without direct infection. To assess this hypothesis, we studied the effects of HIV‐infected M/M on an astrocytic cell‐line lacking CD4‐receptor expression. Exposure to supernatants of HIV‐infected M/M triggers complete disruption and apoptotic death of astrocytic cells. This effect is not related to HIV transmission from infected M/M, because HIV‐DNA and p24 production in astrocytic cells remained negative. Apoptotic death of astrocytes is mainly mediated by Fas ligand released in supernatants of HIV‐infected M/M (as demonstrated by complete reversal of such phenomenon by adding neutralizing antibodies against CD95 receptor). Treatment of astrocytic cells with recombinant (biologically active) Tat induces <10% apoptosis, and gp120 was totally ineffective. Treatment of HIV‐infected M/M with AZT completely reverses the proapoptotic effect of their supernatants on astrocytes, thus demonstrating that productive virus replication within M/M is required for the induction of astrocytic cell death.

Combination treatment using thymosin α1 and interferon after cyclophosphamide is able to cure Lewis lung carcinoma in mice

SummaryA combination treatment with thymosin α1 (200 µg/kg) for 4 days, followed by a single injection of murine interferon α/β (3 × 104 international units/mouse), starting 2 days after cyclophosphamide treatment (200 mg/kg, single injection) demonstrated a dramatic and rapid disappearance of tumor burden in mice bearing Lewis lung carcinoma (3LL) tumor. The effectiveness of this new chemoimmunotherapy protocol was evident even on the long-term survival in a high percentage of animals, and was statistically significant when compared to treatment with the single agents in conjunction with chemotherapy or to chemotherapy itself. The same combination immunotherapy treatment strongly stimulated natural killer activity and cytotoxicity against autologus 3LL tumor cells in 3LL-tumor-bearing mice treated with cyclophosphamide, whereas treatments with each agent singly did not alter or only slightly modified the cytotoxic activity towards Yac-1 or 3LL target cells. Selective depletion with antibodies showed that killer cells stimulated by combination chemoimmunotherapy treatment bear phenotypic characteristics of asialo-GM1-positive cells. A histological study has shown a high number of infiltrating lymphoid cells in the tumors obtained from mice treated with combination chemoimmunotherapy.

Inflammatory and cell death pathways in brain and peripheral blood in Parkinson's disease.

Evidence has been accumulated showing that inflammatory and cell death pathways are altered both in brain and periphery during Parkinson disease (PD). Neuronal loss in PD is associated with chronic neuroinflammation characterized by microglia activation through the release of reactive oxygen radicals, cytokines, and Prostaglandin E2. The release of these inflammatory mediators in addition to deprivation in growth factors and increase of calcium and dopamine seem implicated in triggering apoptosis. The interaction of leucine-rich repeat kinase and Fas- Associated protein with Death Domain has been implicated in the switching-on of the extrinsic apoptotic pathway via caspase-8 activation, while deficiency in PTEN induced putative kinase 1 has been shown to cause Ca2+ accumulation in mitochondria, increased generation of reactive oxygen species and intrinsic cell death. Autophagy/mitophagy appears to be impaired in the brain during PD; this impairment could be related to defective degradation of mutant α-synuclein and consequent apoptotic cell death. Regarding the peripheral blood, reduced amounts of dopamine, reduced levels of immunoreactivity for tyrosine hydroxylase and dopamine active transporter, and alterations of dopamine receptor expression have been detected in mononuclear cells from PD patients. In addition, mononuclear cells from PD patients show mitochondrial, ubiquitin-proteasome system dysfunction and up-regulation of α-synuclein gene, associated to high expression of the Fas molecule, activation of caspase-3 and -9 and proneness to apoptosis. These and other observations reported in this mini-review suggest that a better understanding of molecular dysfunctions in inflammatory and cell death/autophagy pathways, both in the brain and peripheral blood, could provide useful targets for future investigation on drug-discovery and biomarker identification in PD.

Increased caspase activation in peripheral blood mononuclear cells of patients with Alzheimer's disease

In this study, we investigated whether alterations in the pattern of caspase activation could be found at the level of peripheral blood mononuclear cells (PBMCs) in patients with Alzheimers disease (AD). The results showed that in experimental conditions resembling a physiological stimulation, there was a statistically significant increase in the enzymatic activity of caspase-3, caspase-8, and caspase-9 in PBMCs from a small, but well-characterized, cohort of sporadic AD patients compared to those from a comparable control group of aged adults (AA). This was accompanied by a parallel, early increase in the cleavage activity of the same caspases. The higher level of caspase activity in PBMCs from AD compared to AA was not associated with quantitative differences in cell subset profiles. Moreover, no increase in apoptosis level, in the same experimental conditions, was found in PBMCs from this cohort of AD patients compared to those from AA. Conversely, the higher proneness to caspase activation in PBMCs from AD patients in comparison with that from AA was associated with a higher proliferative response to PHA or CD3. These data show a new dysfunction in AD patients at the PBMCs level and suggest that increased proneness to caspase activation in lymphocytes could reflect an ongoing systemic response in neurodegenerative disease with pathogenetic implications.