Cyclooxygenase-2 (COX-2) has attracted attention as a biomarker for neurodegenerative brain diseases. The aim of this study was to develop a COX-2 imaging agent for positron emission tomography (PET) that binds to and emits radiation from COX-2 in the central nervous system to diagnose brain lesions related to COX-2. To this end, the development of PET imaging probes by derivatizing non-steroidal anti-inflammatory drugs that bind to COX-2 was investigated. Herein, we present the findings of a series of studies on indomethacin and nimesulide derivatives. All five 11C-labeled indomethacin derivatives showed low brain uptake and were rapidly metabolized in vivo, indicating that they are inadequate COX-2 imaging agents. However, the evaluation of 11C-labeled indomethacin derivatives revealed an inverse relationship between the amount taken up by the brain and the lipophilicity of the compound, and that P-glycoprotein (P-gp) may be responsible for the low brain uptake of 11C-labeled indomethacin derivatives. To overcome the problems associated with 11C-labeled indomethacin derivatives, nimesulide was selected as a novel COX-2 imaging agent. Although the nimesulide derivatives were less lipophilic and unaffected by P-gp, all three 11C-labeled nimesulide derivatives showed low brain uptake and were rapidly metabolized. However, the 11C-labeled nimesulide derivatives were partially useful as brain-targeted COX-2 imaging agents because they bound specifically to COX-2 in the brain of mice and successfully imaged the regional brain distribution associated with COX-2. In the development of COX-2 imaging agents, in vivo stability of the compounds is a future objective.
Disulfide bonds in peptides contribute to the immobilization and rigidity of their structures, leading to the expression of biological activity and resistance to metabolic enzymes. In addition, disulfide bonds are important in the construction of conjugates comprising two bioactive molecules such as peptides, sugars and drugs. Therefore, new methods of disulfide bond formation contribute to a more efficient construction of disulfide products. This article reviews studies on development of synthetic methodology for disulfide bond formation by using 3-nitro-2-pyridinesulfenyl (Npys) compounds. We have developed a one-pot solid-phase disulfide ligation (SPDSL) method by using an Npys resin, which can easily afford an asymmetric disulfide bond that is generated using two types of thiol-containing components such as peptides and small molecules. The disulfide-linked conjugation between a hydrophobic molecule and a hydrophilic peptide can be easily prepared. Based on the SPDSL strategy, we also developed a disulfide-driven cyclic peptide synthesis, which represents a new strategy to prepare cyclic peptides from two different fragments. By generating a disulfide bond between two fragments, the entropically favorable intramolecular amide bond formation can be achieved, resulting in the reduction of racemization at the coupling site. We found that methyl 3-nitro-2-pyridinesulfenate (Npys-OMe) functions as a disulfide bond-forming reagent possessing mildly oxidative activity. This reagent enhances intramolecular disulfide bond formation between two thiols for the synthesis of cyclic peptides under mildly acidic conditions. As the applications of Npys-OMe, we demonstrated the disulfide bond formation on thiols-containing peptidyl resin.
Programmed cell death plays various physiological roles, one of which is an immune response that protects the body from infectious pathogens such as bacteria and viruses. Pathogen infection causes dysfunction of cellular organelles, such as mitochondria and lysosomes, triggering stress signals that induce programmed cell death. In some cases, cell death coincides with intracellular inflammatory cytokine release. Such programmed cell death, accompanied by the induction of inflammatory responses, is called pyroptosis, which inhibits pathogen proliferation within cells and attracts leukocytes that eliminate the pathogens, thereby preventing infection spread. Additionally, pyroptosis can be induced by noninfectious stimuli such as drugs, pollutants, and nutrients, resulting in severe inflammatory disease. Therefore, the development of effective anti-inflammatory drugs that prevent pyroptosis based on the understanding of the mechanisms responsible for its induction is an urgent requirement. This review provides an overview of the non-infectious inflammatory response caused by pyroptosis and the development of new anti-inflammatory drugs that target organelles to prevent pyroptosis to treat relevant inflammatory diseases.
Cleavage of unactivated bonds, such as amides, often requires challenging reaction conditions with strong acids and bases, and the tolerance of functional groups is limited. Therefore, the development of cleavage reactions for unactivated bonds under mild reaction conditions is essential. Herein, I report our recent developments in the cleavage of unactivated bonds under mild conditions. We achieved cleavage of unactivated amides, carbamates, ureas, and esters, as well as chemoselective cleavage of directing groups. Furthermore, we conducted mechanistic studies and found that these reactions proceed through the stabilization of addition intermediates.
Since commencing my role as a professor in a newly established Department of Pharmacodynamics and Molecular Genetics at the School of Pharmacy, Iwate Medical University, on April 1, 2007, my research has focused on modifying gene expression of cytochrome P-450 (CYP) in established human colon cancer cells. Additionally, I have been investigating methods to enhance the anti-tumor effects of irinotecan (CPT-11) and 5-fluorouracil (5-FU) using epigenetic modifying inhibitors of DNA methyltransferase and histone deacetylase. Treating colon cancer cells with a DNA methyltransferase inhibitor, 5-aza-2′-deoxycytidine (DAC), led to elevated expression levels of CYP1B1 and CYP3A4 through demethylation of the promoter regions of related genes. Furthermore, the administration of DAC and the histone deacetylase inhibitor depsipeptide [(DEP), an anti-cancer drug romidepsin] significantly increased the cellular sensitivities of human colon cancer cells to CPT-11 and 5-FU, respectively. Remarkably, DAC treatment also increased colon cancer cell sensitivity to SN-38, an active metabolite of CPT-11, through the suppression of the anti-apoptotic protein Bcl-2. DEP increased colon cancer cell sensitivity to 5-FU in association with increased expressions of tumor-suppressor p21 and major histocompatibility complex class II genes. Another facet of my research is centered around understanding the gene regulatory mechanisms of the CYP1 family through aryl hydrocarbon receptors (AhR)s under glucose-deprivation stress and in three-dimensional (3D) culture systems of human solid tumor cells. In the 3D culture of human liver cancer cells, I found Pregnane X Receptor being implicated in the regulation of CYP1A2, which aligns with the in vivo mode of CYP1A2 expression.
This review article describes inhibitors of enzymes involved in the epigenetic processes, e.g., DNA methyltransferases and histone deacetylases, increase expression of drug metabolizing cytochrome P-450s (CYPs) 1B1 and 3A4.It also describes alteration of gene regulation of CYP1 family enzymes through aryl hydrocarbon receptors in three dimensional cultures of human solid cancer cells. As changes in gene expression by epigenetic inhibitors accompany increased cancer drug sensitivities, relationship between cellular drug sensitivities and cell environments seems worth to be investigated.
The coronavirus disease 2019 (COVID-19) pandemic has had a major negative effect on the number of patients visiting pharmacies in Japan. The decrease in pharmacy visits during the pandemic compared with the pre-pandemic period may have increased the likelihood of adverse health outcomes; thus, it is important that pharmacy pharmacists take measures to prevent health disadvantages. In this study, we distributed a questionnaire survey to 104 pharmacy pharmacists (mainly in Kagoshima and Kumamoto Prefectures), and investigated changes in the extent of implementation and perceptions of measures considered necessary to protect patients’ health between the pre-pandemic and pandemic period. The results showed that the proportions of respondents “sharing patient information between primary care doctors and pharmacy pharmacists” and conducting “follow-up after prescribing medications mainly via telephone” increased between the pre-pandemic period and September 2022. The perceived necessity of the above two measures, as well as “online medication instructions” and “a prescription refill system,” increased during the same period. However, the proportion of respondents who perceived “0410 correspondence,” which was introduced during the pandemic, as a necessity did not change. Moreover, many pharmacists indicated that, at their own discretion, they continued to correspond with patients in relation to the above, and to respond to specific requests during normal daily practice. Our results could help community-based pharmacists tackle serious public health problems, such as COVID-19.
Selenium is an essential trace element and its deficiency causes myositis, myocardial damage, and other symptoms. Patients receiving long-term intravenous nutrition or tube-feeding in particular are deficient in essential trace elements, including selenium, and require regular supplementation. In Japan, injectable selenium-containing products are listed on the National Health Insurance drug price list, and oral solutions are prepared and used in hospitals. However, these formulations have problems related to preservation and require complicated administration procedures. In this study, we developed a new fast-disintegrating tablet formulation of selenium, using SmartEx® (D-mannitol·low substituted hydroxypropylcellulose (L-HPC)·fully hydrolyzed polyvinyl alcohol (PVA) mixture) as a coprocessing additive, that can be administered orally or by feeding tube. The tablet formulation had excellent disintegrable capability, sufficient hardness, and did not cause tube blockage when administered in the simple suspension method. In addition, the tablet formulation showed no changes in properties in an accelerated test without packaging for 42 d, indicating that it could be stored for a long period. Fast-disintegrating tablets prepared with SmartEx® are expected to improve the adherence and quality of life of patients who require selenium supplementation.
The coronavirus disease 2019 (COVID-19) pandemic has considerably affected several social services. The Ministry of Health, Labour, and Welfare has partially revised the Pharmaceuticals and Medical Devices Law and established legislations on permanent online medication instructions. Based on these social needs, the development of human resources to provide online medication instructions is vital. Therefore, we developed a training program for providing online medication instructions in preparatory clinical education. Pharmacy students who had conducted medical interviews with standardized patients participated in the training. Educational outcomes were evaluated using an objective multiple-choice test and free description before and after practical training. The median number of correct answers on objective tests on the legislation on online medication instructions increased significantly. Based on the free description analysis, students were able to comprehend the influence of communication environment on the quality of medication instructions. Based on the results of the direct evaluation using objective testing and indirect evaluation by analyzing the free descriptions, they also acquired the skills necessary for providing online medication instructions. Therefore, this training program can contribute to mastering the provision of online medication instructions.
Mucuna pruriens (MP) is leguminous plant which contains 5% of L-3,4-dihydroxyphenylalanine (levodopa) in its seeds. It may have a potential to be used as an alternative therapy for Parkinson’s disease (PD). Meanwhile, there is a concern in terms of public health that MP products can be overused by patients with PD. As an entry for patients with PD to acquire MP products in Japan, they are often purchased via internet auctions or free markets. MP products are not reagrded as ‘pharmatheutical’ by Japanese law as long as the specific legal requirements on advertisements are met, so that the MP products can be advertised or sold without any permission from the authorities. In this study, we aimed to conduct internet survey as to the complianse status of these legal requirements. Several major internet auction or free market websites in Japan were surveyed in May–June 2023 by the authors, and 1157 MP product pages were examined. We found approximately 30–40% of the MP products were suspected to have potential legal risks in terms of their advertisements in their website descriptions, such as claiming pharmatheutical efficacy or describing pharmatheutical-like dosages. In addition, approximately 30–40% of the MP products also did not refer to cautions not to take MP products excessively because of the levodopa ingredients. Current study suggested the need of careful description of the MP products in the auction or free market websites for the MP products exhibitors or sellers, in order to fullfill legal requirements as well as to prevent MP abuse.
A consistent and uninterrupted supply of pharmaceuticals is essential for optimal pharmacotherapy. However, some cases of supply disruptions and recalls have been reported. In particular, the withdrawal of some drugs from the market was occurred in recent year. Nevertheless, the characteristics of these drugs were unknown. The aim of this study was to analyze the ratio of generic drugs and the profile of generic drugs that have been withdrawn from the market. Data were collected from a drug information database for the period between April 2017 and March 2022 and analyzed for characteristics, such as price, number of suppliers, and reasons for withdrawal. The results showed a 1.4-fold increase in the number of drugs discontinued in 2021 compared with that in 2017, with 78.6% of the drugs discontinued being generic drugs. The proportion of discontinued generic drugs costing less than 10 yen (29.2%) was higher than those remaining on the market (15.0%). Additionally, the proportion of withdrawn generic drugs sold by four or more suppliers (67.6%) was higher than those that remained in the market (38.4%). In most cases (78.8%), the reasons for the discontinuation of these generic drugs were not disclosed. This study showed that most drugs withdrawn in Japan during the study period were generic drugs, characterized by low prices or many suppliers. Our study contributes to the understanding of the instability in the pharmaceutical supply chain in Japan.
Since it is important that patients take their oral anticancer therapy as prescribed, pharmacists need to assess adherence. In addition, oral anticancer drugs are expensive, and reuse of leftover drugs at outpatient pharmacy clinics is useful in reducing drug costs. The present study aimed to clarify when and why patients have leftover capecitabine tablets, and the cost of leftover capecitabine tablets reused at an outpatient pharmacy clinic, focusing on adjuvant capecitabine plus oxaliplatin (CAPOX) chemotherapy for gastric cancer. We retrospectively studied patients who received adjuvant CAPOX chemotherapy for gastric cancer between November 1, 2015, and April 30, 2021, at the Cancer Institute Hospital of the Japanese Foundation for Cancer Research. The cost of leftover capecitabine reused by pharmacists was calculated based on the National Health Insurance drug price standard for the study period. This study included 64 patients who received adjuvant CAPOX chemotherapy. Thirty-seven patients had 152 leftover capecitabine tablets. The most common reasons for leftover capecitabine tablets were nausea and vomiting (21.7%), missed doses (18.4%), and diarrhea (13.2%). The leftover capecitabine tablets for 25 patients were reused at the outpatient pharmacy clinic at a cost of JPY 604142.8 (JPY 24165.7 per patient). The study results suggest that evaluating capecitabine adherence and the reasons for leftover capecitabine tablets at outpatient pharmacy clinics as well as reusing leftover medication can contribute to reducing drug costs.