• 대한방사성의약품학회지
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• 제6권1호
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• pp.53-58
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• 2020

Pretargeting is a two-component strategy often used for tumor targeting to enhance the tumor-to-background ratio in cancer diagnosis as well as therapy. In the multistep strategy, the highly specific unlabeled monoclonal antibodies (mAbs) with the reactive site is allowed to get localized at tumor site first, and then small and fastclearing radiolabeled chelator with counter reactive site is administered which covalently attaches to mAbs via inverse electron demand Diels-Alder reaction (IEDDA). The catalyst-free IEDDA cycloaddition reaction between 1,2,4,5-tetrazines and strained alkene dienophiles aid with properties like selective bioconjugation, swift and high yielding bioorthogonal reactions are emergent in the development of radiopharmaceutical. Due to its fast pharmacokinetics, the in vivo formed radioimmunoconjugates can be imaged at earlier time points by short-lived radionuclides like ¹⁸F and ⁶⁸Ga; it can also reduce radiation damage to the normal cells. Ultimately, this review elucidates the updated status of pretargeting based on antibodies and IEDDA for tumor diagnosis (PET and SPECT) and therapy.

• 대한방사성의약품학회지
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• 제1권1호
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• pp.15-22
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• 2015

$^{18}F$-labeling reaction of bioactive molecule via click chemistry is widely used to produce $^{18}F$-labeled radiotracer in the field of radiopharmaceutical science and molecular imaging. In particular, bioorthogonal strain-promoted alkyne-azide cycloaddition (SPAAC) reaction has received much attention as an alternative ligation method for radiolabeling bioactive molecules such as peptides, DNA, proteins as well as nanoparticles. Moreover, SPAAC based pretargeting method could provide tumor images successfully on positron emission tomography system using nanoparticle such as mesoporous silica nanoparticles.

• 한국원자력학회:학술대회논문집
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• 한국원자력학회 2004년도 추계학술발표회 발표논문집
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• pp.1257-1258
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• 2004

• 대한약학회:학술대회논문집
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• 대한약학회 2003년도 Proceedings of the Convention of the Pharmaceutical Society of Korea Vol.2-2
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• pp.99.3-100
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• 2003

It is desirable to improve the tumor targeting and blood clearance pharmacokinetics of radiolabeled monoclonal antibodies. To achieve this goal, several avidin-biotin (Bt) binding systems have been developed to decouple large molecular weight antibodies from small radiolabels, thereby achieving high tumor-to-background radioactivity ratios. We inserted a readily catabolizable linker, triglycine (TG), between 3-［/sup125/I］iodobenzoate and dendrimer (G3). We also neutralized the positive charges of G3 by acylation with tetrafluorophenyl glycolate, thereby blocking proximal tubular reabsorption of G3 mediated by charge attraction. (omitted)

• 대한핵의학회지
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• 제26권2호
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• pp.346-354
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• 1992

서울대학교 의과대학에서 개발한 항 CEA항체에 대한 방사성옥소 및 $^{99m}Tc$의 표지법을 개발하고 이런 표지항체의 면역학적 특성을 분석하였다. 1) 8가지의 항 CEA의 단세포군 항체중 CEA-79항체와 CEA-92항체가 가장 좋은 면역학적 특성을 보였다. 표지항체의 면역반응성은 60% 정도이었고, 항원/항체 친화상수는 $1\sim2\times10^9l/m$ 이었다. 2) CEA-79항체는 chloramine-T법으로, CEA-92항체는 iodogen 법으로 방사성옥소를 표지 하는 것이 가장 좋은 표지효율 및 면역 반응성을 보였다. 3) CEA-79항체는 0.5 mCi/mg에서부터 100mCi/mg까지 비방사능을 변화시켰을 때 표지효율이나 면역 반응성에 유의한 차이는 발견할 수 없었다. 4) Glucarate를 이용한 pretargeting transchelation법으로 CEA-79항체를 $^{99m}Tc$로 표지하는 조건을 확립하였다. 표지효율은 $60\sim70%$ 이었다. 본 실험을 통하여 얻은 적절한 조건의 $^{131}I$과 $^{99m}Tc$표지방법의 확립은 앞으로 방사면역신티그라피와 방사면역치료법에 유용하게 사용될 수 있을 것으로 기대된다.

• 대한핵의학회지
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• 제29권1호
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• pp.98-104
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• 1995

필자는 서울대학교 의과대학 병리학 교실에서 만든 항 백혈병 항체(항 CALLA 항체, 항 JL-1 항체)에 대해 $^{99m}Tc$과 $^{125}I$의 표지 방법 및 면역학적 성상을 연구하여 임상 응용의 토대를 만들고자 하였다. $^{99m}Tc$은 pretargeting transchelation법으로 $^{125}I$는 lodogen법으로 표지하였다. 각 항체에 대해 결합 반응검사, Scatchard 분석, 변조 현상 검사를 시행하였다. $^{125}I$는 두 항체 모두에서 90%전후의 높은 표지율을 보인 반면, $^{99m}Tc$ 경우 70%이하의 표지율을 보여 개선점이 요구되었다. 결합반응검사에서도 $^{99m}Tc$을 표지한 항체는 30%정도의 낮은 면역 반응성을 보였다. Scatchard 분석 결과 결합상수 모두가 $10^9$으로 좋은 친화력을 보였고, 세포당 항체 결합 수는 $10^4$으로 비교적 높은 농도로 나타났다. 변조 현상은 모든 경우에서 나타나지 않았다. 항 CALLA 항체, 항 JL-1 항체는 향후 림프종과 백혈병의 진단 및 치료에 도움이 될 수 있으리라 기대된다.

• Nuclear Medicine and Molecular Imaging
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• 제40권2호
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• pp.74-81
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• 2006

Molecular targeting may be defined as the specific concentration of a diagnostic or therapeutic tracer by its Interaction with a molecular species that is distinctly present or absent in a disease state. Monoclonal antibody (mAb) is one of the successful agents for targeted therapy in cancer. To enhance the therapeutic effect, the concept of targeting radionuclides to tumors using radiolabeled mAbs against tumor-associated antigens, radioimmunotherapy, was proposed. The efficacy of radioimmunotherapy, however, has to be further optimized. Several strategies to improve targeting of tumors with radiolabeled mAbs have been developed, such as the use of mAb fragments, the use of high-affinity mAbs, the use of labeling techniques that are stable in vivo, active removal of the radiolabeled mAb from the circulation, and pretargeting strategies. Until now, however, there are many kinds of obstacles to be solved in the use of mAb for the targeted therapy. Major technical challenges to molecular targeting are related to the rapid and specific delivery of tracers to the target, the elimination of unwanted background activity, and the development of more specific targets to create a cytocidal effect. further development of this field will be determined by success in solving these challenges.