Antiretroviral Therapy with Protease Inhibitors Has an Early, Immune Reconstitution–Independent Beneficial Effect on<i>Candida</i>Virulence and Oral Candidiasis in Human Immunodeficiency Virus–Infected Subjects

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Alternative TrkAIII splicing: A potential regulated tumor-promoting switch and therapeutic target in neuroblastoma

An association between elevated tyrosine kinase receptor (Trk)-A expression and better prognosis; the absence of mutation-activated TrkA oncogenes; the induction of apoptosis, growth arrest, morphological differentiation and inhibition of xenograft growth; and angiogenesis by TrkA gene transduction, provide the basis for the current concept of an exclusively tumor-suppressor role for TrkA in the aggressive pediatric tumor, neuroblastoma. This concept, however, has recently been challenged by the discovery of a novel hypoxia-regulated alternative TrkAIII splice variant, initial data for which suggest predominant expression in advanced-stage neuroblastoma. TrkAIII exhibits neuroblastoma xenograft tumor-promoting activity associated with the induction of a more angiogenic and stress-resistant neuroblastoma phenotype and antagonises nerve growth factor/TrkAI antioncogenic signaling. In this short review, the authors integrate this novel information into a modified concept that places alternative TrkA splicing as a potential pivotal regulator of neuroblastoma behavior and identifies the TrkAIII alternative splice variant as a potential biomarker of patient prognosis and novel therapeutic target. © 2005 Future Medicine Ltd

Reconstitution of TIMP-2 expression in SH-SY5Y neuroblastoma cells by 5-azacytidine is mediated transcriptionally by NF-Y through an inverted CCAAT site

Advanced stage neuroblastomas (NB) exhibit a tissue inhibitor of metalloproteinase (TIMP)-2/matrix metalloproteinase (MMP) imbalance, considered a prerequisite for MMP involvement in tumor progression in vivo. Human SH-SY5Y NB cells exhibit a similar TIMP-2/MMP imbalance that promotes in vitro invasive behavior that is inhibited by exogenous TIMP-2. The DNA methyltransferase inhibitor 5-azacytidine (5-AzaC) redresses this TIMP-2/MMP imbalance, reconstituting TIMP-2 expression, without effecting that of MMP-2, by stimulating TIMP-2 transcription and inhibiting in vitro invasivity of SH-SY5Y cells. 5-AzaC stimulated transcription from a nonmethylated TIMP-2,. promoter reporter gene construct consistent with regulation of a TIMP-2 transactivator. Promoter deletion and point-mutation analysis localized this effect to an inverted CCAAT element at position -73. This element bound specific complexes containing NF-YA and NF-YB proteins in SH-SY5Y nuclear extracts, the binding of which was augmented by 5-AzaC in association with enhanced levels of NF-YB protein and the function of which was confirmed by inhibition using dominant-negative NF-YA. The data highlight a novel indirect methylation-mediated mechanism for regulating the TIMP/MMP equilibrium in NB cells, involving repression of TIMP-2 relative to MMP-2 expression, dependent upon suboptimal NF-Y transcription factor function, which can be reversed by methyltransferase inhibition. (C) 2003 Elsevier Science (USA). All rights reserved

Thioredoxin inhibits microvascular endothelial capillary tubule formation

Thioredoxin (Trx) inhibited human HMEC-1 dermal microvascular endothelial cell capillary tubule forming capacity in a Matrigel based assay in vitro. Inhibition of capillary tubule formation was Trx catalytic site and thioredoxin reductase (TrxR) dependent, mediated at the Matrigel matrix level, and associated with a shift from morphological differentiation to continuous proliferation, with enhanced cell spreading resulting in eventual monolayer formation. Soluble complex carbohydrates, which inhibited capillary tubule formation on Matrigel without induction of cell spreading or monolayer formation, failed to impair Trx promotion of cell spreading and mono-layer formation, suggesting a shift away front carbohydrate-mediated cell/matrix adhesive interactions. Laminin peptides YIGRS and SIKVAV, which impaired tubule formation on Matrigel without inducing cell spreading or monolayer formation, partially impaired cell spreading upon Trx-treated Matrigel without restoring tubule formation, consistent with a potential role for laminin in Trx-mediated effects. Trx reduced laminin and destabilised laminin/galectin-3 complexes within Matrigel. Native purified EHS Laminin (also containing galectin-3), but not recombinant galectin-3, restored HMEC-1 capillary tubule formation on Trx-treated Matrigel. These data highlight a novel deregulatory effect of extracellular Trx upon morphological capillary differentiation that appears to depend upon the reduction of laminin and destabilisation of its interaction with galectin-3, possibly leading to galectin-3 neutralisation that shifts cell/matrix adhesive interactions away from being carbohydrate mediated and results in loss of proliferation-inhibiting and differentiation promoting cues from this tumor basement membrane matrix. (C) 2003 Elsevier Inc. All rights reserved

The Alternative TrkAIII Splice Variant Targets the Centrosome and Promotes Genetic Instability ▿

The hypoxia-regulated alternative TrkAIII splice variant expressed by human neuroblastomas exhibits oncogenic potential, driven by in-frame exon 6 and 7 alternative splicing, leading to omission of the receptor extracellular immunoglobulin C1 domain and several N-glycosylation sites. Here, we show that the TrkAIII oncogene promotes genetic instability by interacting with and exhibiting catalytic activity at the centrosome. This function depends upon intracellular TrkAIII accumulation and spontaneous interphase-restricted activation, in cytoplasmic tyrosine kinase (tk) domain orientation, predominantly within structures that closely associate with the fully assembled endoplasmic reticulum intermediate compartment and Golgi network. This facilitates TrkAIII tk-mediated binding of γ-tubulin, which is regulated by endogenous protein tyrosine phosphatases and geldanamycin-sensitive interaction with Hsp90, paving the way for TrkAIII recruitment to the centrosome. At the centrosome, TrkAIII differentially phosphorylates several centrosome-associated components, increases centrosome interaction with polo kinase 4, and decreases centrosome interaction with separase, the net results of which are centrosome amplification and increased genetic instability. The data characterize TrkAIII as a novel internal membrane-associated centrosome kinase, unveiling an important alternative mechanism to “classical” cell surface oncogenic receptor tk signaling through which stress-regulated alternative TrkAIII splicing influences the oncogenic process

The Alternative TrkAIII Splice Variant Targets the Centrosome and Promotes Genetic Instability ▿

The hypoxia-regulated alternative TrkAIII splice variant expressed by human neuroblastomas exhibits oncogenic potential, driven by in-frame exon 6 and 7 alternative splicing, leading to omission of the receptor extracellular immunoglobulin C1 domain and several N-glycosylation sites. Here, we show that the TrkAIII oncogene promotes genetic instability by interacting with and exhibiting catalytic activity at the centrosome. This function depends upon intracellular TrkAIII accumulation and spontaneous interphase-restricted activation, in cytoplasmic tyrosine kinase (tk) domain orientation, predominantly within structures that closely associate with the fully assembled endoplasmic reticulum intermediate compartment and Golgi network. This facilitates TrkAIII tk-mediated binding of γ-tubulin, which is regulated by endogenous protein tyrosine phosphatases and geldanamycin-sensitive interaction with Hsp90, paving the way for TrkAIII recruitment to the centrosome. At the centrosome, TrkAIII differentially phosphorylates several centrosome-associated components, increases centrosome interaction with polo kinase 4, and decreases centrosome interaction with separase, the net results of which are centrosome amplification and increased genetic instability. The data characterize TrkAIII as a novel internal membrane-associated centrosome kinase, unveiling an important alternative mechanism to “classical” cell surface oncogenic receptor tk signaling through which stress-regulated alternative TrkAIII splicing influences the oncogenic process

TrkAIII expression in the thymus

The alternative TrkAIII splice variant is expressed by murine and human thymus. Alternative TrkAIII splicing predominates in postembryonic day E13 (E17 and E18), postnatal murine (3 week and 3 month) and human thymuses, with TrkAIII mRNA expressed by selected thymocyte subsets and thymic epithelial cells (TECs) and a 100 kDa immunoprecipitable TrkAIII-like protein detected in purified thymocyte and whole thymus extracts. FACS and immunohistochemical analysis indicate a non-cell surface localisation for the TrkAIII-like protein in cortical CD4(+)/CD8(+) double positive and, to a lesser extent, single positive thymocyte subsets at the cortex/medulla boundary and in Hassle's corpuscles, reticular epithelial and dendritic cells of the thymic medulla. TrkA(I/II) expression, on the other hand, predominates in sub-capsular regions of the thymus. TrkAIII-like immumoreactivity at the cortex/medulla boundary associates with regions of thymocyte proliferation and not apoptosis. A potential role for thymic hypoxia in thymocyte alternative TrkAIII splicing is supported by reversal to TrkAI splicing by normoxic but not hypoxic culture and induction of Jurkat T cell alternative TrkAIII splicing by the hypoxia mimic CoCl2. In contrast, TEC expression of TrIcAIII predominates in both normoxic and hypoxic culture conditions. The data support a potential role for TrkAIII in thymic development and function, of particular relevance to intermediate stage CD4+/CD8+ thymocyte subsets and TECs, which potentially reflects a reversible thymocyte and more permanent TEC adaptation to thymic environment. Since intracellular TrkAIII neither binds nor responds to NGF and can impede regular NGF/TrkA signalling (Tacconelli et al., Cancer Cell, 2004), its expression would be expected to provide an alternative and/or impediment to regular NGF/TrkA signalling within the developing and developed thymus of potential functional importance. (c) 2006 Elsevier B.V. All rights reserved