war ; armed conflicts ; Nuclear Energy ; Atomic Energy ; Radiation ; Nuclear Weapons

war ; Armed Conflicts ; Nuclear Energy ; Atomic Energy ; Radiation ; Nuclear Weapons

The Philippine Journal of Otolaryngology Head and Neck Surgerypreviously co published two guest editorials, on “Reducing the Risks of Nuclear War— the Role of Health Professionals”¹and “Time to Treat the Climate and Nature Crisis as One Indivisible Global Health Emergency”²that addressed dual potentially catastrophic concerns that both place us “on the brink.”³

By co-publishing these guest editorials, the Philippine Journal of Otolaryngology Head and Neck Surgery joined the call for “health professional associations to inform their members worldwide about the threat to human survival and to join with the International Physicians for the Prevention of Nuclear War (IPPNW) to support efforts to reduce the near-term risks of nuclear war.”¹As enumerated in the editorial,¹we urged three immediate steps that should be taken by nuclear-armed states and their allies: 1) adopt a no first use policy;⁴2) take their nuclear weapons off hair-trigger alert; and 3) urge all states involved in current conflicts to pledge publicly and unequivocally that they will not use nuclear weapons in these conflicts.It is alarming that noprogress has been made on these measures.

Thus, on our 44th Anniversary, we join over 150 scholarly scientific journals worldwide in co-publishing another Guest Editorial on “Ending Nuclear Weapons, Before They End Us.”⁵We call on the World Health Assembly (WHA) to vote this May on re establishing a mandate for the World Health Organization (WHO) to address the consequences of nuclear weapons and war,6and urge health professionals and their associations (including otolaryngologists – head and neck surgeons, all surgeons and physicians, and the Philippine Society of Otolaryngology – Head and Neck Surgery, Philippine College of Surgeons, Philippine College of Physicians,
Philippine Academy of Family Physicians, Philippine Pediatric Society, Philippine Obstetrical and Gynecologic Society, Philippine Society of Anesthesiology, Philippine College of Radiology, Philippine Society of Pathologists, other specialty and subspecialty societies, and the Philippine Medical Association) to urge the Philippine Government to support such a mandate and support the new United Nations (UN) comprehensive study on the effects of nuclear war.⁷

Although Gamma Knife irradiates much more radiation in a single session than conventional radiotherapy, there were only a few studies to measure absolute dose of a Gamma Knife. Especially, there is no report of application of International Atomic Energy Agency (IAEA) TRS-398 which requires to use a water phantom in radiation measurement to Gamma Knife. In this article, the authors reported results of the experiments to measure the absorbed dose to water of a Gamma Knife Model C using the IAEA TRS-398 protocol. The absorbed dose to water of a Gamma Knife model C was measured using a water phantom under conditions as close as possible to the IAEA TRS-398 protocol. The obtained results were compared with values measured using the plastic phantom provided by the Gamma Knife manufacturer. Two Capintec PR-05P mini-chambers and a PTW UNIDOS electrometer were used in measurements. The absorbed dose to water of a Gamma Knife model C inside the water phantom was 1.38% larger than that of the plastic phantom. The current protocol provided by the manufacturer has an intrinsic error stems from the fact that a plastic phantom is used instead of a water phantom. In conclusion, it is not possible to fully apply IAEA TRS-398 to measurement of absorbed dose of a Gamma Knife. Instead, it can be a practical choice to build a new protocol for Gamma Knife or to provide a conversion factor from a water phantom to the plastic phantom. The conversion factor can be obtained in one or two standard laboratories.
Nuclear Energy ; Plastics ; Radiotherapy ; Water

In January, 2023, the Science and Security Board of the Bulletin of the Atomic Scientists moved the hands of the Doomsday Clock forward to 90’s before midnight, reflecting the growing risk of nuclear war.1 In August, 2022, the UN Secretary-General António Guterres warned that the world is now in “a time of nuclear danger not seen since the height of the Cold War.2 The danger has been underlined by growing tensions between many nuclear armed states.1,3 As editors of health and medical journals worldwide, we call on health professionals to alert the public and our leaders to this major danger to public health and the essential life support systems of the planet—and urge action to prevent it.
Armed Conflicts ; Nuclear Energy ; Radiation

Gene Fusion ; Gene Rearrangement ; Humans ; Neoplasms/genetics* ; Nuclear Proteins/genetics*

High expression of Fightless I (FLII) is associated to multiple tumors. Based on our previous study that FLII might be involved in the nuclear export, we assessed the possible interaction of FLII with the nuclear envelop associating proteins Importin β and Nup88. We first constructed GST-FLII, GST-LRR recombinant plasmids and transformed them into the Rosetta strain to produce GST-FLII, GST-LRR fusion protein. After purification of these proteins, GST-pull down, as well as co-immunoprecipitation, were used to test the interaction of FLII with Importin β and Nup88. FLII interacted with Importin β and Nup88, and FLII LRR domain is responsible for these interactions. Thus, FLII may play a role in nuclear export through interaction with Importin β and Nup88.
Humans ; Microfilament Proteins ; metabolism ; Nuclear Pore Complex Proteins ; metabolism ; Receptors, Cytoplasmic and Nuclear ; metabolism ; Recombinant Fusion Proteins ; metabolism ; beta Karyopherins ; metabolism

OBJECTIVE: To analyze the subcellular localization of GTPase of immunity-associated protein 2 (GIMAP2) for the further functional study. METHODS: In the study, we first obtained the protein sequences of GTPase of immunity-associated protein 2 (GIMAP2) from National Center for Biotechnology Information (NCBI) database, and then performed a prediction analysis of its transmembrane structure, nuclear localization signal (NLS), nuclear export signal (NES) and subcellular localization through bioinformatics online tools. GIMAP2 gene amplified by PCR was inserted into the expression vector pQCXIP-mCherry-N1 and positive clones were selected by ampicillin resistance. After using methods to extract and purify, the sequenced recombinant plasmid pQCXIP-GIMAP2-mCherry, together with the retroviral packaging plasmids VSVG and Gag/pol, was transferred into HEK293FT cells by liposomes for virus packaging. The virus supernatant was collected 48 h after transfection and directly infected the human breast cancer cell line MDA-MB-436. Immunofluorescence staining was constructed to detect the localization of endogenous and exogenous GIMAP2 in MDA-MB-436 cells. Meanwhile, green fluorescent chemical dyes were used to label mitochondria, endoplasmic reticulum, and lipid droplets in living MDA-MB-436 cells stably expressing the GIMAP2-mCherry fusion protein. Images for the three dye-labeled organelles and GIMAP2-mCherry fusion protein were captured by super-resolution microscope N-SIM. RESULTS: Bioinformatics analysis data showed that GIMAP2 protein composed of 337 amino acids might contain two transmembrane helix (TM) structures at the carboxyl terminus, of which TMs were estimated to contain 40-41 expected amino acids, followed by the residual protein structures toward the cytoplasmic side. NES was located at the 279-281 amino acids of the carboxyl terminus whereas NLS was not found. GIMAP2 might locate in the lumen of the endoplasmic reticulum. Sequencing results indicated that the expression vector pQCXIP-GIMAP2-mCherry was successfully constructed. Fluorescent staining confirmed that GIMAP2-mCherry fusion protein, co-localized well with endogenous GIMAP2, expressed successfully in the endoplasmic reticulum and on the surface of lipid droplets in MDA-MB-436 cells. CONCLUSION GIMAP2 localizes in the endoplasmic reticulum and on the surface of LDs, suggesting potential involvement of GIMAP2 in lipid metabolism.
Amino Acid Sequence ; Cytoplasm ; GTP Phosphohydrolases ; Humans ; Membrane Proteins ; Nuclear Export Signals ; Nuclear Localization Signals ; Recombinant Fusion Proteins ; Transfection

OBJECTIVE: To express and purify NR4A1-DNA binding domain (DBD) protein of nuclear receptors. METHODS: The fusion protein PET28a-NR4A1-DBD was constructed and purified with the nickel affinity chromatography, cation-exchange chromatography and gel filtration chromatography. RESULTS: The protein PET28a-NR4A1-DBD was mostly soluable at 24 °C. A total of 2-3 mg/L pure NR4A1 proteins were yielded in bacterial culture and the purity for final fractions of NR4A1-DBD protein were great than 95% by SDS-PAGE analysis. CONCLUSION Nickel affinity chromatography is effective to purify protein. The protein purity can be further improved by the following methods including cation-exchange chromatography and gel filtration chromatography.
Electrophoresis, Polyacrylamide Gel ; Nuclear Receptor Subfamily 4, Group A, Member 1 ; chemistry ; Recombinant Fusion Proteins ; chemistry

The compatibility with GammaMed-12i brachytherapy machine for an Ir-192 encapsulated source (IRRS20, KAERI, Korea) manufactured by Korea atomic energy research institute (KAERI) has been investigated. As a mechanical testing of compatibility, precise measurement of step movement with channels, measurement of curvature of radius for wire, and emergency return testing were performed. Periodic measurements of air kerma strength for 45 days were carried out to evaluate decay characteristics of Ir-192 radioisotope and comparison of dose distributions in phantom between KAERI and old sources previously used were performed by film dosimetry. KAERI source has a good compatibility with GammaMed12i machine as a result of mechanical testing. There are in good agreement with calculated values in activity characteristics and there were small differences in dose distributions around the source in comparison between KAERI and old source.
Academies and Institutes ; Brachytherapy ; Emergencies ; Film Dosimetry ; Korea ; Nuclear Energy ; Radius