PRELIMINARY EVALUATION OF AN ANTHRAQUINONE CONJUGATED DOTA DERIVATIVE AS SPECT AGENT

Objective: An anthraquinone derivative, DO3A-Act-AQ having DO3A (1, 4, 7, 10-tetraazacyclododecane-1, 4, 7-trisacetic acid) scaffold is radio labeled with 99mTc radioisotope and evaluated as a SPECT imaging agent for tumor.Methods: Preliminary in-vivo evaluation of 99mTc-DO3A-Act-AQ radioconjugate including blood kinetics, biodistribution and gamma scintigraphic imaging is performed on BMG-1 tumor xenografted mice after successful optimization of the radiolabeling condition.Results: The radiotracer, 99mTc-DO3A-Act-AQ was produced in high radiochemical yield of>96% and specific activity of 3.62 MBq/nmol at pH 7.5 and 150 µg stannous chloride. Radioconjugate displayed excellent in-vitro and in-vivo stability with only ~2% transchelation of radiometal at 24 h p. i and rapid blood clearance from the system with t1/2(F) = 38.04±0.35 min and t1/2(S) = 5 h 30 min±0.67. Significant tumor-to-muscle ratio of>7 at 2 h p. i. in biodistribution and SPECT imaging studies in BMG-1 tumor xenografted mice suggested the tumor specificity of the radioconjugate.Conclusion: Stable radiocomplex formation of 99mTc-DO3A-Act-AQ and its significant tumor specificity demonstrated its future application as a promising SPECT radioligand for tumor imaging

The Genetic Basis of Hepatosplenic T-cell Lymphoma

Hepatosplenic T cell lymphoma (HSTL) is a rare and lethal lymphoma; the genetic drivers of this disease are unknown. Through whole exome sequencing of 68 HSTLs, we define recurrently mutated driver genes and copy number alterations in the disease. Chromatin modifying genes including SETD2, INO80 and ARID1B were commonly mutated in HSTL, affecting 62% of cases. HSTLs manifest frequent mutations in STAT5B (31%), STAT3 (9%), and PIK3CD (9%) for which there currently exist potential targeted therapies. In addition, we noted less frequent events in EZH2, KRAS and TP53. SETD2 was the most frequently silenced gene in HSTL. We experimentally demonstrated that SETD2 acts as a tumor suppressor gene. In addition, we found that mutations in STAT5B and PIK3CD activate critical signaling pathways important to cell survival in HSTL. Our work thus defines the genetic landscape of HSTL and implicates novel gene mutations linked to HSTL pathogenesis and potential treatment targets

Upregulation of hyaluronan binding protein 1 (HABP1/p32/gC1qR) is associated with cisplatin induced apoptosis

We have earlier reported that overexpression of HABP1 in fibroblast cells causes perturbed cell growth, extensive vacuolation and restricted entry to the S-phase, finally leading to apoptosis (Biochem Biophys Res Commun 2003; 300: 686-693). In the present study, we investigate the regulation of HABP1 expression in cisplatin induced apoptosis in HeLa cells. Apoptosis induced in HeLa cells at 24 h of cisplatin treatment was confirmed by nuclear fragmentation, increase in subdiploid population and the enhanced activation of ERK and upregulation of p53. In association with apoptosis induction, an upregulation of HABP1 expression was observed in HeLa cells at 18 and 24 h of cisplatin treatment. Quantification of HABP1 expression by flow cytometry confirmed a two-fold increase in total intracellular HABP1 expression at 24 h of cisplatin treatment. Under the same condition the HABP1 transcript level measured by semi quantitative RT PCR showed 2.5-fold increase ascertaining transcriptional regulation of HABP1 during cisplatin induced apoptosis. Further, in normal HeLa cells though a small amount of HABP1 can be detected in nucleus, but with apoptosis induction the protein is mainly concentrating around the nuclear periphery at 18 h of cisplatin treatment and is present both in the nucleus as well as in the cytosol at 24 h of treatment, suggesting its nuclear translocation during apoptosis. To substantiate our findings prior to the cisplatin treatment, the expression of HABP1 was reduced by small interfering RNA mediated knockdown. We observed a reduction in apoptotic cell population in cisplatin treated HeLa cells with disrupted HABP1 conferring resistance to cisplatin induced apoptosis. We report here that HABP1 upregulation in the cell is important for cisplatin induced apoptosis

Constitutive expression of hyaluronan binding protein 1 (HABP1/p32/gC1qR) in normal fibroblast cells perturbs its growth characteristics and induces apoptosis

Hyaluronan binding protein 1 (HABP1) is a ubiquitously expressed multifunctional phospho-protein that interacts with a wide range of ligands and is implicated in cell signalling. Recently, we have reported that HABP1 is an endogenous substrate for MAP kinase and upon mitogenic stimulation it is translocated to the nucleus in a MAP kinase-dependent manner (Biochem. Biophys. Res. Commun. 291(4) (2002) 829-837). This prompted us to investigate the role of HABP1 in cell growth or otherwise in low MAP kinase background. We demonstrate that HABP1, when overexpressed in normal rat skin fibroblasts, remained in the cytosol, primarily concentrated around the nuclear periphery. However, HABP1 overexpressing cells showed extensive vacuolation and reduced growth rate, which was corrected by frequent medium replenishment. Further investigation revealed that HABP1 overexpressing cells undergo apoptosis, as detected by TUNEL assay, induction of Bax expression, and FACS analysis, and they failed to enter into the S-phase. Periodic medium supplementation prevented these cells from undergoing apoptotic death. We also demonstrate that upon induction of apoptosis in HeLa cells by cisplatin, HABP1 level is upregulated, indicating a correlation between HABP1 and cell death in a normal cellular environment

Exploring novel ligands for mGluR5: Design, computational analysis, and protein-ligand interaction studies

Abstracts: Metabotropic glutamate receptors (mGluRs) are G-protein-coupled receptors activated by glutamate. A series of 90 novel compounds have been assessed as mGluR5 receptor antagonists. These compounds, selected post-ADMET filtering according to Lipinski's rule of five, represent structurally innovative ligands inspired by promising existing ones. Utilizing the FlexX program, the ligands were docked alongside the reference compound SIB1757 to mGluR5. Docking simulations unveiled compound 14, featuring an ortho-substituted moiety, as the most promising with a binding affinity of -47 kcal/mol, followed by compound 8 at -41 kcal/mol. A total of 31 docked molecules exhibited superior binding affinity compared to reference compounds. Subsequent molecular dynamics simulations over 100 ns confirmed the stability of protein-ligand complexes, establishing the efficacy of the selected compounds as negative allosteric modulators of mGluR5.