Antonis Halapas

Systemic cytokine response following exercise-induced muscle damage in humans

Abstract Background: Muscle adaptation which occurs following eccentric exercise-induced muscle damage has been associated with an acute inflammatory response. The purpose of this study was to investigate serum interleukin-6 (IL-6), osteoprotegerin and receptor activator of nuclear factor kB ligand (OPG/RANKL) concentrations following muscle damage. We measured changes for several days following muscle damage. Methods: Ten healthy young males performed an eccentric exercise protocol using their quadriceps. Blood samples were withdrawn before and at 6 h, 2 days, 5 days and 16 days post-exercise. Functional and clinical measurements were performed before, and on days 1, 2, 5, 8, 12 and 16 post-exercise. Results: The exercise protocol resulted in muscle damage, indicated by changes in biochemical markers. An increase in IL-6 and OPG, and a decrease in RANKL concentrations were seen at 6 h and on day 2 post-exercise; the OPG:RANKL ratio was increased at 6 h post-exercise (p<0.05). Conclusions: Changes in IL-6 and OPG/RANKL system may represent systemic responses in muscle inflammation and repair processes. However, further studies are needed to elucidate a potential systemic and/or local role of the OPG/RANKL system in skeletal muscle repair. Clin Chem Lab Med 2009;47:777–82.

Combined androgen blockade therapy can convert RT-PCR detection of prostate-specific antigen (PSA) and prostate-specific membrane antigen (PSMA) transcripts from positive to negative in the peripheral blood of patients with clinically localized prostate cancer and increase biochemical failure-free survival after curative therapy.

BACKGROUND The clinical relevance of positive molecular staging as defined by reverse transcriptase-polymerase chain reaction (RT-PCR) detections of both prostate-specific antigen (PSA) and prostate-specific membrane antigen (PSMA) transcripts in the peripheral blood (PB) of patients with prostate cancer is still debatable. METHODS We analyzed the biochemical failure-free survival (bFFS) of prostate cancer patients with positive molecular staging who underwent immediate curative therapy (Group I, n=39) compared to prostate cancer patients who did convert their positive molecular staging by the administration of combined androgen blockade (CAB) for 12 months prior to curative treatment (Group II, n=15). RESULTS The median bFFS for Group I was 9 months (95% CI 5-13 months) and was significantly lower compared to Group II (>36 months, p<0.001). In Group I, the median time for PSA values of >2.0 ng/mL was 18 months (95% CI 12-21 months, range 12-36 months). Notably, only one patient from Group II reached PSA values>2.0 ng/mL at 36 months post-curative treatment. CONCLUSIONS In patients with clinically localized prostate cancer and positive RT-PCR detection of PSA and PSMA transcripts in PB, CAB can convert positive molecular staging status to negative and by doing so it modifies the post-curative therapy bFFS of patients with clinically localized prostate cancer.

Molecular detection of tyrosinase transcripts in peripheral blood from patients with malignant melanoma: correlation of PCR sensitivity threshold with clinical and pathologic disease characteristics.

Abstract Background: Positive molecular detection of tyrosinase transcripts (TYR mRNA) in RNA extracts of peripheral blood (PB) samples from patients with malignant melanoma provides evidence of disease dissemination. Methods: Total RNA extracted from PB was quantified and subjected to RT-PCR under ultra-sensitive and reduced-sensitivity PCR conditions using SSRT-II. Positive TYR mRNA detection in 78 melanoma patients and 40 healthy volunteers was correlated with clinical stage, Breslows evaluation of tumor thickness, Clarks assessment of tumor invasion, the location of the primary tumor site, and tumor histology. The assay sensitivity was evaluated by spiking PB with the melanoma cell line SK-MEL-28. Results: Using ultra-sensitive PCR conditions, eight out of 40 RNA (20%) samples from healthy volunteers and 50 out of 78 RNA (64.1%) samples from melanoma patients tested positive. Using reduced-sensitivity PCR conditions, we found only two positives in 40 RNA samples from healthy subjects and 20 positives in 78 RNA samples (25.6%) from melanoma patients. Only positive PCR samples for the reduced-sensitivity PCR assay correlated significantly with stage IV (metastatic) disease (p=0.0395). There was no significant correlation between positive TYR mRNA samples for either PCR condition (ultra-sensitive and reduced-sensitivity) with Breslows classification of tumor thickness, Clarks assessment of tumor invasion, location of the primary tumor site, and type of tumor histology. Conclusions: We conclude that reduced-sensitivity rather than ultra-sensitive PCR conditions correlate with clinical stage in melanoma patients. Clin Chem Lab Med 2006;44:1403–9.

Combination therapy using LHRH and somatostatin analogues plus dexamethasone in androgen ablation refractory prostate cancer patients with bone involvement: a bench to bedside approach

The development of resistance to anticancer therapies is a major hurdle in preventing long-lasting clinical responses to conventional therapies in hormone-refractory prostate cancer. Herein, the molecular evidence documenting that bone metastasis microenvironment survival factors (mainly the paracrine growth hormone-independent, urokinase-type plasminogen activator-mediated increase of IGF-1 and the endocrine production of growth hormone-dependent IGF-1, mainly liver-derived IGF-1 production) produce an epigenetic form of prostate cancer cells that are resistant to proapoptotic therapies is reviewed. Consequently, the authors present the conceptual framework of a novel antibone microenvironment survival factor, mainly an anti-IGF-1 hormonal manipulation for androgen ablation refractory prostate cancer (a combination of conventional androgen ablation therapy [luteinising hormone-releasing hormone agonist-A or orchiectomy]) with dexamethasone plus somatostatin analogue, which yielded durable objective responses and major improvement of bone pain and performance status in stage D3 prostate cancer patients.

Combination of somatostatin analogues and dexamethasone (antisurvival-factor concept) with luteinizing hormone-releasing hormone in androgen ablation-refractory prostate cancer with bone metastasis

Michael Koutsilieris, Theodore Dimopoulos*, Constantine Milathianakis†, John Bogdanos, Dimitrios Karamanolakis, Nicholas Pissimissis, Antonis Halapas, Peter Lembessis, Andreas Papaioannou‡ and Antigone Sourla¶ Department of Experimental Physiology, Medical School, National & Kapodistrian University of Athens, Goudi-Athens, *Urology Clinic, Panagia General Hospital, Thessaloniki, †Urology Clinic, ‘Metaxa’ Anticancer Hospital, Piraeus, ‡Urology Clinic, Argos General Hospital, Argos, and ¶Endo/OncoResearch Laboratories, Diagnostic Medical Center, Athens, Greece

Molecular diagnosis of the viral component in cardiomyopathies: pathophysiological, clinical and therapeutic implications.

Background: Myocarditis is defined as the inflammation of myocardium associated with cardiac dysfunction. Despite this clear-cut definition, diagnosis and etiologic treatment continue to create considerable debate. Viral infections are frequent causes of myocarditis and there is evidence that persistent viral infection is associated with poor prognosis in different subtypes of cardiomyopathy. Objective: To review methods for diagnosis of viral myocarditis and present the use of polymerase chain reaction (PCR)–based protocols for evaluating viral infection in myocarditis/cardiomyopathies. Methods: A review of published literature. Results/conclusion: There is increasing evidence that PCR-based protocols can provide reliable molecular evidence for the presence of viral infection in myocardium. Thus application of molecular techniques will allow collection and analysis of more information on the epidemiology of viral cardiomyopathies, patient risk stratification and appropriate medical treatment.

Autophagy: a target for therapeutic interventions in myocardial pathophysiology

Background: Autophagy is a major degradative and highly conserved process in eukaryotic cells that is activated by stress signals. This self-cannibalisation is activated as a response to changing environmental conditions, cellular remodelling during development and differentiation, and maintenance of homeostasis. Objective: To review autophagy regarding its process, molecular mechanisms and regulation in mammalian cells, and its role in myocardial pathophysiology. Results/conclusion: Autophagy is a multistep process regulated by diverse, intracellular and/or extracellular signalling complexes and pathways. In the heart, normally, autophagy occurs at low basal levels, where it represents a homeostatic mechanism for the maintenance of cardiac function and morphology. However, in the diseased heart the functional role of the enhanced autophagy is unclear and studies have yielded conflicting results. Recently, it was shown that during myocardial ischemia autophagy promotes survival by maintaining energy homeostasis. Also, rapamycin was demonstrated to prevent cardiac hypertrophy. In heart failure, upregulation of autophagy acts as an adaptive response that protects cells from hemodynamic stress. In addition, sirolimus-eluting stents have been shown to lower re-stenosis rates in patients with coronary artery disease after angioplasty. Thus, this mechanism can become a major target for therapeutic intervention in heart pathophysiology.