József Tı́már scite author profile

Although cancer cells are not generally controlled by normal regulatory mechanisms, tumor growth is highly dependent on the supply of oxygen, nutrients, and host-derived regulators. It is now established that tumor vasculature is not necessarily derived from endothelial cell sprouting; instead, cancer tissue can acquire its vasculature by co-option of pre-existing vessels, intussusceptive microvascular growth, postnatal vasculogenesis, glomeruloid angiogenesis, or vasculogenic mimicry. The best-known molecular pathway driving tumor vascularization is the hypoxia-adaptation mechanism. However, a broad and diverse spectrum of genetic aberrations is associated with the development of the "angiogenic phenotype." Based on this knowledge, novel forms of antivascular modalities have been developed in the past decade. When applying these targeted therapies , the stage of tumor progression , the type of vascularization of the given cancer tissue , and the molecular machinery behind the vascularization process all need to be considered. A further challenge is finding the most appropriate combinations of antivascular therapies and standard radio-and chemotherapies. This review intends to integrate our recent knowledge in this field into a rational strategy that could be the basis for developing effective clinical modalities using antivascular therapy for cancer. (Am J

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Density of DC-LAMP+ mature dendritic cells in combination with activated T lymphocytes infiltrating primary cutaneous melanoma is a strong independent prognostic factor

Ladányi

Kiss

Somlai

et al. 2007

Cancer Immunol Immunother

248

185

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As the most potent antigen presenting cells, dendritic cells (DCs) play key roles in the immune response against tumors. Their density in the tumor tissue has been associated with prognosis in patients with various cancers. However, few studies have been aimed at the presence and maturation state of DCs in cutaneous melanoma, with regard to their potential clinical correlates. In this study, the density of DCs expressing CD1a and the maturation marker DC-LAMP was determined by immunohistochemistry in primary tumor samples from 82 patients with cutaneous malignant melanoma. Intratumoral and peritumoral cell densities were analyzed in relation to tumor thickness and the subsequent development of metastases, as well as to patients' survival. CD1a(+) DCs were found both infiltrating melanoma cell nests and in the surrounding stroma, while DC-LAMP(+) mature DCs were generally confined to the peritumoral areas, associated with lymphocytic infiltrates. DC density values significantly correlated with the number of activated (CD25(+) or OX40(+)) T lymphocytes (p < 0.001). The degree of infiltration by CD1a(+) and DC-LAMP(+) DCs showed strong inverse correlation with the thickness of melanomas (p < 0.001). High peritumoral density of mature DCs was associated with significantly longer survival (p = 0.0195), while density of CD1a(+) cells had a prognostic impact of borderline significance (p = 0.0610). Moreover, combination of high peritumoral CD1a(+) or DC-LAMP(+) cell density with high number of CD25(+) or OX40(+) lymphocytes identified patient subgroups with more favorable survival compared to other subgroups. A multivariate survival analysis involving DC and activated T-cell densities alone and in combinations, as well as traditional prognostic factors, identified high DC-LAMP(+) cell/high OX40(+) cell density and Breslow index as independent predictors of good prognosis. These results suggest that the presence of CD1a(+) DCs primarily depends on the thickness of melanomas, without direct relationship with the patients' survival. On the other hand, the density of mature DCs, especially in association with that of activated T cells, proved of prognostic importance, suggesting that these parameters could be considered as signs of a functional immune response associated with better outcome of the disease.

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Identification and Clinical Significance of Circulating Endothelial Progenitor Cells in Human Non–Small Cell Lung Cancer

Döme¹,

Tı́már²,

Dobos³

et al. 2006

167

144

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Until recently, it was generally accepted that vascularization of tumors arises exclusively from endothelial sprouting. Whether circulating bone marrow-derived endothelial progenitor cells (EPC) participate in the progression of non-small cell lung cancer (NSCLC) has not yet been evaluated. EPCs labeled with CD34, CD133, and vascular endothelial growth factor receptor-2 (VEGFR2) antibodies were counted by flow cytometry in the peripheral blood of 53 NSCLC patients. Furthermore, by means of a quantitative reverse transcription-PCR approach, we measured VEGFR2, CD133, CD34, and VE-cadherin mRNA in the peripheral blood samples of the same patient population. EPCs in tumor samples were identified by confocal microscopy using CD31, CD34, CD133, and VEGFR2 antibodies. Although immunofluorescent labeling of microvessels made clear that incorporation of EPCs is a rare phenomenon in NSCLC tissue (9 of 22 cases), circulating EPC levels before therapeutic intervention were increased in NSCLC patients (P < 0.002, versus healthy controls), and high pretreatment circulating EPC numbers correlated with poor overall survival (P < 0.001). Furthermore, in the subgroup of responders to treatment, the posttreatment EPC numbers in the peripheral blood were significantly lower compared with nonresponding patients. Interestingly, pretreatment mRNA levels of CD133, VE-cadherin, and CD34 were not significantly increased in NSCLC patients, whereas VEGFR2 expression was increased by 80-fold. Moreover, posttreatment VEGFR2 mRNA level in the peripheral blood was significantly higher in the subgroup of nonresponding patients when compared with posttreatment level of patients responding to antitumor therapy. Circulating levels of bone marrow-derived EPCs are significantly increased in NSCLC patients and correlate with clinical behavior. (Cancer Res 2006; 66(14): 7341-7)

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Molecular epidemiology and diagnostics of KRAS mutations in human cancer

Tı́már

Kashofer

2020

Cancer Metastasis Rev

227

135

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RAS mutation is the most frequent oncogenic alteration in human cancers. KRAS is the most frequently mutated followed by NRAS. The emblematic KRAS mutant cancers are pancreatic, colorectal, lung adenocarcinomas and urogenital cancers. KRAS mutation frequencies are relatively stable worldwide in various cancer types with the one exception of lung adenocarcinoma. The frequencies of KRAS variant alleles appears cancer type specific, reflecting the various carcinogenic processes. In addition to point mutation KRAS, allelic imbalances are also frequent in human cancers leading to the predominance of a mutant allele. KRAS mutant cancers are characterized by typical, cancer-type-specific co-occurring mutations and distinct gene expression signatures. The heterogeneity of KRAS mutant primary cancers is significant, affecting the variant allele frequency, which could lead to unpredictable branching development in metastases. Selection of minute mutant subclones in the primary tumors or metastases during target therapies can also occur frequently in lung or colorectal cancers leading to acquired resistance. Ultrahigh sensitivity techniques are now routinely available for diagnostic purposes, but the proper determination of mutant allele frequency of KRAS in the primary or metastatic tissues may have larger clinical significance.

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Vascularization of cutaneous melanoma involves vessel co‐option and has clinical significance

Döme

Paku

Somlai

et al. 2002

The Journal of Pathology

115

124

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This study was undertaken to determine the role and the fate of the peritumoural vascular plexus during the vascularization of human malignant melanoma (hMM) and in an appropriate murine melanoma model system. The prognostic significance of the vascularity of different tumour areas was also evaluated. Despite morphometry revealing several-fold higher microvessel densities (MVDs) in the peritumoural tissue than at the centre of the tumour, the development of visceral metastases of hMM was exclusively correlated with the MVD of the tumour centre. Furthermore, the 5-year survival of the patient group with low tumour centre MVD (<30/mm(2), n=29) was 100%, compared to 1/16 patients alive with high tumour centre MVD (>30/mm(2), n=16). Morphometric analysis and three-dimensional reconstruction of vessel networks of both human and murine melanomas showed clearly that the peritumoural vascular plexus present at the melanoma base is continuously being incorporated into the growing tumour mass. Once vessels become incorporated, sprouting ceases and the proliferating endothelial cells (EC) take part only in vessel dilatation. Moreover, the immunohistochemical and ultrastructural characterization of microvessels demonstrated that the pericyte coverage of endothelial tubes was complete in all of the investigated areas, in both human and murine melanomas.

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József Tı́már

Alternative Vascularization Mechanisms in Cancer

Density of DC-LAMP+ mature dendritic cells in combination with activated T lymphocytes infiltrating primary cutaneous melanoma is a strong independent prognostic factor

Identification and Clinical Significance of Circulating Endothelial Progenitor Cells in Human Non–Small Cell Lung Cancer

Molecular epidemiology and diagnostics of KRAS mutations in human cancer

Vascularization of cutaneous melanoma involves vessel co‐option and has clinical significance

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