| |
Speaker |
Affiliation |
Title |
| L-1 |
Yoshinori Murakami |
Natl Cancer Ctr, Japan |
Tumor suppressor function of TSLC1/IGSF4 as an epithelial guardian |
| S1-1 |
Maria L. Lung |
Hong Kong Univ Sci Tech, Hong Kong |
Identification and functional studies of TSLC1 in nasopharynageal carcinoma |
| S1-2 |
Akiteru Goto |
Tokyo Univ, Japan |
Loss of TSLC1/IGSF4 expression in lung adenocarcinoma: relationships with
gender and prognostic significance |
| S1-3 |
Robert Winqvist |
Oulu Univ, Finland |
Analysis of TSLC1 and other chromosome 11q21-q24 loss of heterozygosity candidate
target genes in human breast cancer |
| L-2 |
Minoru Toyota |
Sapporo Med Univ, Japan |
DNA methylation changes in cancer: application to diagnosis and therapy |
| S1-4 |
Yutaka Shimada |
Kyoto Univ, Japan |
Downstream mechanisms of TSLC1 in esophageal cancer |
| S1-5 |
Renske D. M. Steenbergen |
Vrije Univ, Netherlands |
Dense TSLC1 promoter hypermethylation in cervical squamous cell carcinomas
but not adenocarcinomas |
| S1-6 |
Douglas P. Clark |
Johns Hopkins Univ, USA |
TSLC1/IGSF4 DNA methylation as a biomarker of cervical and anal carcinoma |
| L-3 |
Yoshimi Takai |
Osaka Univ, Japan |
Nectin and nectin-like molecules in cell adhesion, movement, and proliferation |
| S2-1 |
Hara P. Ghosh |
McMaster Univ, Canada |
Studies on the TSLC1 tumor suppressor in lung cancer gene |
| S2-2 |
Mari Masuda |
Natl Cancer Ctr, Japan |
TSLC1 suppresses epithelial cell scattering and tubulogenesis |
| S3-1 |
Shinji Fushiki |
Kyoto Pref Univ, Japan |
Spatiotemporal patterns of expression of IGSF4 in developing mouse brain,
with reference to the prenatal effects of ionizing radiation |
| S3-2 |
Katsuhiko Tabuchi |
Univ Texas Southwestern, USA |
Cell adhesion by SynCAM and Neurexin/Neuroligins drive functional synapse
assembly |
| S3-3 |
Albert Zlotnik |
Neurocrine Bioscience, USA |
Characterization of CRTAM, ligand of IGSF4 |
| S4-1 |
Marco Colonna |
Washington Univ, USA |
The tumor suppressor TSLC1/NECL-2 triggers NK-cell and CD8+ T-cell responses
through the cell-surface receptor CRTAM |
| S4-2 |
Laurent Galibert |
Sereno Pharmaceutical Ltd, Switzerland |
Nectin-like protein 2 defines a subset of T-cell zone dendritic cells and
is a ligand for class-I-restricted T-cell-associated molecule |
| S4-3 |
Takashi Saito |
Riken, Japan |
Function of CRTAM-TSLC1/Necl2 interaction in in vivo immunity |
| S4-4 |
Kazuhiko Morishita |
Miyazaki Univ, Japan |
TSLC1 is a novel and useful surface marker for adult T-cell leukemia |
| L-4 |
John Bienenstock |
McMaster Univ, Canada |
Overview of nerve-mast cell interaction in vitro and in vivo, and
involvement of SgIGSF/SynCAM/TSLCI in immunological synapse |
| S5-1 |
Tadahide Furuno |
Aichi Gakuin Univ, Japan |
The SgIGSF/SynCAM on mast cells promotes interaction with nerves |
| S5-2 |
Akihiko Ito |
Kobe Univ, Japan |
SgIGSF: a new mast-cell adhesion molecule that mediates attachment to fibroblasts
under the control of c-kit |
| S5-3 |
Peter Bradding |
Glenfield Hosp, UK |
TSLC-1 plays a key role in the interaction of human lung mast cells with
airway smooth muscle |
| S6-1 |
Tomohiko Wakayama |
Kanazawa Univ, Japan |
Role of SgIGSF/TSLC1 in the interaction between spermatogenic and Sertoli
cells during mouse spermatogenesis |
| S6-2 |
Louise van der Weyden |
Wellcome Trust Sanger Inst., UK |
Loss of TSLC1 causes male infertility due to a defect at the spermatid stage
of spermatogenesis |
| S6-3 |
Daisuke Yamada |
Natl Cancer Ctr, Japan |
Disruption of spermatogeniccell adhesion and male infertility in mice lacking
TSLC1/IGSF4, an immunoglobulin superfamilycell adhesion molecule |
| S7-1 |
Shoichi Iseki |
Kanazawa Univ, Japan |
Expression of the adhesion molecule SgIGSF/TSLC1 during regeneration of the
olfactory epithelium and sciatic nerve |
| S7-2 |
Yoshikazu Kurosawa |
Fujita Health Univ, Japan |
Comprehensive isolation of antibodies bound to tumor-associated antigens
(TAA) and their identification |
| S7-3 |
Roger H. Reeves |
Johns Hopkins Univ, USA |
Tumor repression in Down syndrome |
| S7-4 |
Eric J. Stanbridge |
Univ California Irvine, USA |
The tumor and hypoxia biomarker carbonic anhydrase IX: its utility in monitoring
HIF-1 activity |
