The influence of rs1360780 polymorphism of FK506-binding protein 5 gene on the brain regional homogeneity of resting state fMRI in patients with major depressive disorder / 中华行为医学与脑科学杂志

Objective To explore the influence of rs1360780 T risk allele of FK506-binding protein 5 (FKBP5) gene on the brain function under resting-state and its association with clinical symptoms as well as immune function in patients with major depressive disorder (MDD).Methods Totally 147 MDD patients and 61 gender-,age-,and education-matched healthy controls were scanned with 3.0T MRI Scanner and genotyped.The peripheral serum immunoglobulin and complement were measured.The main effect of the disease,the genotype and their interaction effects were analyzed using regional homogeneity (ReHo) by two-way ANOVA.Abnormal brain activity was identified in T risk allele carriers of rs1360780 and non-risk CC individuals in MDD using post hoc analyses.Correlation analyses were performed between ReHo values of significant brain regions and the total score,five-factor scores of Hamilton rating scale for depression (HAMD-17),serum levels of immunoglobulin and plasma complement component in MDD patients.Results (1) The results of 2x 2 ANOVA showed the interaction effects located in the left opercular part of inferior frontal gyrus (MNI:x,y,z =-42,6,9;F=10.83),right opercular part of inferior frontal gyrus (MNI:x,y,z =30,6,33;F=15.05),left medial superior frontal gyrus (MNI:x,y,z=-9,54,0;F=9.17) and left pallidum (MNI:x,y,z =-12,6,-6;F=11.37) (Alphasim corrected,P＜ 0.05).(2) In post-hoc analyses for the main effect of genotype,T+ carriers with MDD showed increased ReHo values in the right opercular part of inferior frontal gyrus (MNI:x,y,z=60,12,6;t=2.88) compared with CC carriers;for the effect of diseaseby-genotype interaction,T+ carriers with MDD showed increased ReHo values in the right opercular part of inferior frontal gyrus (MNI:x,y,z=30,6,33;t=2.96) and decreased ReHo values in the left orbital part of inferior frontal gyrus (MNI:x,y,z =-21,9,-18;t =-3.21) (Alphasim corrected,P＜ 0.05) in contrast to CC carriers.(3)Pearson's correlation showed that the average ReHo values of the right opercular part of inferior frontal gyrus negatively correlated with the content of immunoglobulin G (r=-0.528,P=O.0016,Bonferroni corrected) and positively correlated with anxiety/somatization factor score (r=0.421,P＜0.001,Bonferroni corrected) in T + carrìers with MDD.Conclusion The results of this study suggest that rs1360780 T-risk allele of FKBP5 gene is involved in the changes of local neural activity in the right opercular part of inferior frontal gyrus of depressed patients and could potentially indicate a neuropathological mechanism of anxiety somatic symptoms and immune dysfunction in depression.

Construction and expression of HSV1-tk eukaryotic vector in lung adenocarcinoma AGZY cell line / 实用肿瘤学杂志

Objective The purpose of this study is to construct eukaryotic gene vector of herpes simplex virus type 1 thymidine kinase(HSV1-tk)and to observe the expression of HSV1-tk in lung adenocarcinoma AGZY cell line.Methods The full length HSV1-tk gene was amplified by PCR from plasmid pHSV 106 and was inserted into pMD18-T.The recombinant plasmid was recombined with eukaryotic vector plRES 2-EGFP u-sing gene recombinant technique .HSV1 -tk was transfected into adenocarcinoma AGZY cell line with Lipo-fectamineTM 2 000.Fluorescence microscopy was used to detect the transfection and expression of HSV 1-tk.RT-PCR was used to detect the mRNA levels of HSV 1-tk.The cell proliferation was measured by MTT assay .Re-sults A length of 1 130 bp gene sequence was obtained by PCR .The expressions of HSV 1-tk at mRNA and protein levels were displayed by RT -PCR and Western blot .MTT analysis showed that there were no significant changes cell survival on after transfection .Conclusion The eukaryotic expression vector of HSV 1 -tk report gene is successfully constructed and HSV 1-tk is effectively expressed in transfected AGZY cells .

Transcriptional and Nontranscriptional Regulation of NIS Activity and Radioiodide Transport / 핵의학분자영상

Radioiodide transport has been extensively and successfully used in the evaluation and management of thyroid disease. The molecular characterization of the sodium/iodide symporter (NIS) and cloning of the NIS gene has led to the recent expansion of the use of radioiodide to cancers of the breast and other nonthyroidal tissues exogenously transduced with the NIS gene. More recently, discoveries regarding the functional analysis and regulatory processes of the NIS molecule are opening up exciting opportunities for new research and applications for NIS and radioiodide. The success of NIS based cancer therapy is dependent on achievement of maximal radioiodide transport sufficient to allow delivery of effective radiation doses. This in turn relies on high transcription rates of the NIS gene. However, newer discoveries indicate that nontranscriptional processes that regulate NIS trafficking to cell membrane are also critical determinants of radioiodide uptake. In this review, molecular mechanisms that underlie regulation of NIS transcription and stimuli that augment membrane trafficking and functional activation of NIS molecules will be discussed. A better understanding of how the expression and cell surface targeting of NIS proteins is controlled will hopefully aid in optimizing NIS gene based cancer treatment as well as NIS based reporter-gene imaging strategies.

Molecular Imaging in the Age of Genomic Medicine

The convergence of molecular and genetic disciplines with non-invasive imaging technologies has provided an opportunity for earlier detection of disease processes which begin with molecular and cellular abnormalities. This emerging field, known as molecular imaging, is a relatively new discipline that has been rapidly developed over the past decade. It endeavors to construct a visual representation, characterization, and quantification of biological processes at the molecular and cellular level within living organisms. One of the goals of molecular imaging is to translate our expanding knowledge of molecular biology and genomic sciences into good patient care. The practice of molecular imaging is still largely experimental, and only limited clinical success has been achieved. However, it is anticipated that molecular imaging will move increasingly out of the research laboratory and into the clinic over the next decade. Non-invasive in vivo molecular imaging makes use of nuclear, magnetic resonance, and in vivo optical imaging systems. Recently, an interest in Positron Emission Tomography (PET) has been revived, and along with optical imaging systems PET is assuming new, important roles in molecular genetic imaging studies. Current PET molecular imaging strategies mostly rely on the detection of probe accumulation directly related to the physiology or the level of reporter gene expression. PET imaging of both endogenous and exogenous gene expression can be achieved in animals using reporter constructs and radiolabeled probes. As increasing numbers of genetic markers become available for imaging targets, it is anticipated that a better understanding of genomics will contribute to the advancement of the molecular genetic imaging field. In this report, the principles of non-invasive molecular genetic imaging, its applications and future directions are discussed.

In Vitro Uptakes of Radiolabeled IVDU and IVFRU in Herpes Simplex Virus Type-1 Thymidine Kinase (HSV1-tk) Gene Transduced Morris Hepatoma Cell Line / 대한핵의학회잡지

PURPOSE: The herpes simplex virus type 1 thymidine kinase gene (HSV1-tk) is an attractive candidate as a reporter gene in noninvasive reporter gene monitoring system. The HSV1-tk gene was chosen as a reporter gene, because it has been extensively studied, and there are appropriate reporter probes, substrates of HSV1-tk gene product, to apply for HSV1-tk gene imaging. We used radiolabeled 5-iodovinyl-2'-deoxyuridine (IVDU) and 5-Iodovinyl-2'-fluoro-2'-deoxyuridine (IVFRU) as reporter probes for HSV1-tk gene monitoring system. MATERIALS AND METHODS: We prepared HSV1-tk gene transduced Morris hepatoma cell line using retroviral vector, MOLTEN containing HSV1-tk gene. And we confirmed the HSV1-tk gene expression by Northern blotting and Western blotting. We compared in vitro uptakes of radioiodinated IVDU and IVFRU to monitor HSV1-tk gene expression in Morris hepatoma cell line (MCA) and HSV1-tk gene tranduced MCA (MCA-tk) cells until 480 minutes. We also performed correlation analysis between percentage of HSV1-tk gene tranduced MCA cell % (MCA-tk%) and uptakes of radiolabeled IVDU or IVFRU. RESULTS: MCA-tk cell expressed HSV1-tk mRNA and HSV1-TK protein. Two compounds showed minimal uptake in MCA, but increased uptake was observed in MCA-tk. IVDU showed 4-fold higher accumulation than IVFRU at 480 min in MCA-tk (p 0.96) with increasing MCA-tk%. CONCLUSION: The radiolabeld IVDU and IVFRU showed higher specific accumulation in retrovirally HSV1-tk gene transfected Morris hepatoma cell line. Both IVDU and IVFRU could be used as good substrates for evaluation of HSV1-tk gene expression.

Nuclear Medicine in Oncology

Nuclear oncolgy is important in the diagnosis, staging, and long-term surveillance of a number of cancers. Over the past 10 years there has been an explosion of new radioisotopic tracers aimed at detecting, staging and eventually treating tumors. Clinicians and oncologists can now use specific radiolabeled metabolic tracers, monoclonal antibodies, and molecular probes based on the sequencing of the human genome. The current applications of positron emission tomography (PET) in oncology have included characterizing tumor lesions, differentiating recurrent disease from treatment effects, staging tumors, evaluating the extent of disease, and monitoring therapy. The future developments in medicine may use the unique capabilities of PET not only in diagnostic imaging but also in molecular medicine and genetics. Radioimmunoscintigraphy is a technique which uses radiolabeled antibodies to visualize tumors, taking advantage of antigens preferentially expressed by malignant tissue. However, the implementation of radiolabeled antibodies as "magic bullets" for detection and treatment of diseases such as cancer has required addressing several shortcomings of murine monoclonal antibodies. Genetic engineering provides a powerful approach for redesigning antibodies for use in oncologic applications in vivo. Recently, noninvasive molecular imaging has been developed. Most current molecular imaging strategies are "indirect" and involve the coupling of a "reporter gene" with a complementary "reporter probe". Imaging the level of probe accumulation provides indirect information related to the level of reporter gene expression. In this article, the author discuss the current status of PET, radioimmunoscintigraphy, gene imaging and receptor imaging with a brief review on nuclear oncology.

Recent Progress in Medical Imaging: Mloecular Imaging in Living Subjects / 대한의료정보학회지

Recent progress in the development of non-invasive imaging technologies continues to strengthen the role of molecular imaging biological research. These tools have been validated recently in variety of research models, and have been shown to provide continuous quantitative monitoring of the location(s), magnitude, and time-variation of gene delivery and/or expression. This article reviews the use of radionuclide, magnetic resonance, and optical imaging technologies as they have been used in imaging gene delivery and gene expression for molecular imaging applications. The studies published to date demonstrate that noninvasive imaging tools will help to accelerate pre-clinical model validation as well as allow for clinical monitoring of human diseases.