Poly[bis-{µ-N'-[(pyridin-4-yl)methyl-idene]benzohydrazidato}copper(II)].

In the title complex, [Cu(C13H10N3O)2] n , the copper(II) cation is located on a crystallographic inversion centre and adopts an elongated octa-hedral coordination geometry with the equatorial plane provided by trans-arranged bis-N,O-chelating acyl-hydrazine groups from two ligands and the apices by the N atoms of two pyridine rings belonging to symmetry-related ligands. The ligand adopts a Z conformation about the C=N double bond. The dihedral angle between the pyridine and phenyl rings is 2.99 (13)°. An intra-ligand C-H⋯N hydrogen bond is observed. In the crystal, each ligand bridges two adjacent metal ions, forming a (4,4) grid layered structure. π-π stacking inter-actions [centroid-centroid distances in the range 3.569 (4)-3.584 (9) Å] involving rings of adjacent layers result in the formation of a three-dimensional supra-molecular network.

Frequent down-regulation of hRAB37 in metastatic tumor by genetic and epigenetic mechanisms in lung cancer.

We looked for the involvement tumor suppressor gene (TSG) in lung cancer in 17q25 region by loss of heterozygosity analysis and 5'/3' RACE and identified a candidate gene named human RAB37 (hRAB37), which encodes a small GTPase. The Ras-GTPase superfamily functions as important regulators including membrane trafficking and cytoskeletal organization. Therefore, we further examined the mRNA expression and promoter/exon1 hypermethylation of hRAB37 gene in paired normal and tumor lung tissue from 71 non-small cell lung cancer (NSCLC) patients. Low hRAB37 mRNA expression occurred in 47.9% (34/71) of patient and promoter/exon1 hypermethylation of hRAB37 was found in 57.7% (41/71) of patients. Low mRNA expression of hRAB37 was significantly associated with their promoter/exon1 hypermethylation. Importantly, a reduction in hRAB37 mRNA expression and promoter/exon1 hypermethylation was found to be significantly associated with lung metastatic patients as compared to non-metastatic patients. 5-Aza-2-deoxycytidine treatment of a highly metastatic cell line showed demethylation and re-expression of the hRAB37 gene and coincided with reduced migration. Knockdown of hRAB37 in low metastasis cell line led to a significant increase in cell migration. Our findings demonstrated that hRAB37 small GTPase and acts as a metastasis-related TSG in lung cancer. Promoter/exon1 methylation is the predominant mechanism in down-regulation of the hRAB37, and can serve as a potential prediction biomarker of NSCLC progression.

Small GTPase Rab37 targets tissue inhibitor of metalloproteinase 1 for exocytosis and thus suppresses tumour metastasis.

Rab small GTPases are master regulators of membrane trafficking and guide vesicle targeting. Recent publications show that Rab-controlled trafficking pathways are altered during tumorigenesis. However, whether any of the Rabs plays a metastasis suppressor role is least explored. Here we address the metastasis suppressive function of human Rab37 (hRAB37) using secretomics, cell, animal and clinical analyses. We show that tissue inhibitor of metalloproteinase 1 (TIMP1), a secreted glycoprotein that inhibits extracellular matrix turnover, is a novel cargo of hRAB37. hRAB37 regulates the exocytosis of TIMP1 in a nucleotide-dependent manner to inactivate matrix metalloproteinase 9 (MMP9) migration axis in vitro and in vivo. Dysfunction of hRAB37 or TIMP1 abrogates metastasis suppression. Lung cancer patients with metastasis and poor survival show low hRAB37 protein expression coinciding with low TIMP1 in tumours. Our findings identify hRAB37 as a novel metastasis suppressor Rab that functions through the TIMP1-MMP9 pathway and has significant prognostic power.