• Asian Pacific Journal of Cancer Prevention
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• 제15권6호
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• pp.2427-2431
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• 2014

Triple-negative breast cancers (TNBC), characterized by absence of the estrogen receptor (ER) and progesterone receptor (PR) and lack of overexpression of human epidermal growth factor receptor 2 (HER2), have a poor prognosis. To overcome therapy limitations of TNBC, various new approaches are needed. This mini-review focuses on discovery of new targets and drugs which might offer new hope for TNBC patients.

• Asian Pacific Journal of Cancer Prevention
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• 제16권5호
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• pp.1683-1686
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• 2015

Different types of treatment are available for patients with breast cancer, the most being radiotherapy, chemotherapy, hormonal therapy and combination therapy. Recently, nanoparticles have been emerging as promising agents for cancer therapy and are being investigated as contrast agents, drug carriers, radiosensitizers and also for hyperthermia effects. In this review the focus is on approaches for targeted treatment of breast cancer by combining nanoparticles, chemodrugs and radiation. The availble data suggest the possibility of increased roles for combined therapy, particularly by reducing the dose of each treatment modality, and consequently minimizing related side effects.

• Medical Lasers
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• 제9권2호
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• pp.134-141
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• 2020

The use of stem cell therapy to treat various diseases has become a promising approach. The ability of stem cells to self-renew and differentiate can contribute significantly to the success of regenerative medical treatments. In line with these expectations, there is a great need for an efficient research methodology to differentiate stem cells into their specific targets. Photobiomodulation (PBM), formerly known as low-level laser therapy (LLLT), is a relatively non-invasive technique that has a therapeutic effect on damaged tissue or cells. Recent advances in adapting PBM to stem cell therapy showed that stem cells and progenitor cells respond favorably to light. PBM stimulates different types of stem cells to enhance their migration, proliferation, and differentiation in vitro and in vivo. This review summarizes the effects of PBM on targeted differentiation across multiple stem cell lineages. The analytical expertise gained can help better understand the current state and the latest findings in PBM and stem cell therapy.

• 생명과학회지
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• 제18권10호
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• pp.1395-1399
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• 2008

우리는 최근에 PRC1 프로모터가 유방암 유전자치료를 위하여 전사 표적이 된 유전자의 발현을 조절할 수 있는 후보 프로모터임을 보고하였다. 우리는 본 실험에서 PRC1이 폐암유전자 치료에서도 적용이 가능한지 조사하였다. 특정 프로모터가 루시퍼라제 유전자와 연결된 플라스미드를 이용한 형질전환 assay에서 PRC1 프로모터는 정상폐세포주에서는 활성을 보이지 않으나 폐암세포주에선 약 30 배의 활성을 보였다. 이는 이미 암특이적인 발현으로 알려진 BIRC5 (survivin) 프로모터와 유사한 결과였다. 또한, 바이러스 벡터를 이용한 실험에서 PRC1은 CMV 프로모터에 비해 아데노부속바이러스에서 약 75%, 아데노바이러스에서 약 66%의활성을 보였다. 이와 대조적으로, PRC1 프로모터를 함유한 이 들 두 종류의 바이러스는 정상 폐세포에서는 20%정도의 낮은 활성을 보였다. 흥미롭게도, 인간 폐종양세포를 이식한 생쥐모델을 사용한 결과에서는 PRC1 프로모터가 CMV 프로모터와 비슷한 생체 활성을 보였다. 종합하면, 이상의 결과는 PRC1이 폐암 유전자치료를 위한 전사표적 유전자의 발현을 위한 프로모터로 사용 가능함을 암시한다.

• 대한핵의학회:학술대회논문집
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• 대한핵의학회 2006년도 제45차 춘계학술대회
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• pp.25-25
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• 2006

• 한국의학물리학회:학술대회논문집
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• 한국의학물리학회 2002년도 Proceedings
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• pp.167-170
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• 2002

No Abstract, See Full Text

• Biomolecules & Therapeutics
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• 제23권6호
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• pp.493-509
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• 2015

Antibody-drug conjugates utilize the antibody as a delivery vehicle for highly potent cytotoxic molecules with specificity for tumor-associated antigens for cancer therapy. Critical parameters that govern successful antibody-drug conjugate development for clinical use include the selection of the tumor target antigen, the antibody against the target, the cytotoxic molecule, the linker bridging the cytotoxic molecule and the antibody, and the conjugation chemistry used for the attachment of the cytotoxic molecule to the antibody. Advancements in these core antibody-drug conjugate technology are reflected by recent approval of Adectris$^{(R)}$(anti-CD30-drug conjugate) and Kadcyla$^{(R)}$(anti-HER2 drug conjugate). The potential approval of an anti-CD22 conjugate and promising new clinical data for anti-CD19 and anti-CD33 conjugates are additional advancements. Enrichment of antibody-drug conjugates with newly developed potent cytotoxic molecules and linkers are also in the pipeline for various tumor targets. However, the complexity of antibody-drug conjugate components, conjugation methods, and off-target toxicities still pose challenges for the strategic design of antibody-drug conjugates to achieve their fullest therapeutic potential. This review will discuss the emergence of clinical antibody-drug conjugates, current trends in optimization strategies, and recent study results for antibody-drug conjugates that have incorporated the latest optimization strategies. Future challenges and perspectives toward making antibody-drug conjugates more amendable for broader disease indications are also discussed.

• Journal of Microbiology and Biotechnology
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• 제12권5호
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• pp.844-848
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• 2002

In more than half of human tumors, the p53 tumor suppressor gene is mutated. Thus, restoration of wild-type p53 activity by repair of mutant RNA could be a potentially promissing approach to cancer treatment. To explore the potential use of RNA repair for cancer therapy, trans-splicing group I ribozymes were developed that could replace mutant p53 RNA with RNA sequence attached to the 3'end of ribozymes. By employing a mapping library of ribozymes, we first determined which regions of the p53 RNA are accessible to ribozymes, and found that the leader sequences upstream of the AUG start codon appeared to be particularly accessible. Next, trans-splicing ribozymes were generated that specifically recognized the sequences around these accessible regions. Subsequently, the ribozymes reacted with and altered the p53 transcripts by transferring a 3'exon tag sequence onto the targeted p53 RNA with high fidelity. Thus, these ribozymes could be utilized to repair mutant p53 in tumors, which would revert the neoplastic phenotype.

• Nuclear Medicine and Molecular Imaging
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• 제42권5호
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• pp.337-346
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• 2008

Applications of nanotechnology in the medical field have provided the fundamentals of tremendous improvement in precise diagnosis and customized therapy. Recent advances in nanomedicine have led to establish a new concept of theragnosis, which utilizes nanomedicines as a therapeutic and diagnostic tool at the same time. The development of high affinity nanoparticles with large surface area and functional groups multiplies diagnostic and therapeutic capacities. Considering the specific conditions related to the disease of individual patient, customized therapy requires the identification of disease target at the cellular and molecular level for reducing side effects and enhancing therapeutic efficiency. Well-designed nanoparticles can minimize unnecessary exposure of cytotoxic drugs and maximize targeted localization of administrated drugs. This review will focus on major pharmaceutical nanomaterials and nanoparticles as key components of designing and surface engineering for targeted theragnostic drug development.

• Korean Journal of Otorhinolaryngology-Head and Neck Surgery
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• 제61권12호
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• pp.637-643
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• 2018

Radioimmunotherapy (RIT) is a therapy that takes advantage of the "cross-fire" effect of emitted radiation by radionuclides conjugated to tumor-directed monoclonal antibodies (mAb) (including those fragments) or peptides. While RIT has been successfully employed for the treatment of lymphoma, mostly with radiolabeled antibodies against CD20 [$^{90}yttrium$ ($^{90}Y$)-ibritumomab tiuxetan; $Zevalin^{(R)}$ and $^{131}iodine$ ($^{131}I)-tositumomab$; $Bexxar^{(R)}$], its use in solid tumors is more challenging, so far. Immuno-PET, a tool for tracking and quantification of mAbs with PET in vivo, is an exciting novel option to improve diagnostic imaging and guide mAb-based therapy. RIT in solid tumors including head and neck cancer may be an alternative treatment with advances in various biological, chemical, and treatment procedures, and it may help to reduce unnecessary exposure and enhance the therapeutic efficacy. Also, immuno-PET based on RIT might play an important role in cancer staging, in patients or targets selection of targeted therapeutics and in monitoring the response of targeted therapeutics as precision medicine. In this review, fundamentals of RIT/immune-PET and current knowledge of the preclinical/clinical trials in RIT for solid tumor including head and neck cancer are reviewed.