Isolation of Shiga Toxin-Producing Escherichia coli from the Surfaces of Beef Carcasses in Slaughterhouses in Japan.

Shiga toxin-producing E. coli (STEC) is an important foodborne pathogen worldwide. It is necessary to control and prevent STEC contamination on beef carcasses in slaughterhouses because STEC infection is associated with beef consumption. However, the frequencies of STEC contamination of beef carcasses in various slaughterhouses in Japan are not well known. Herein, we investigated the contamination of beef carcasses with STEC in slaughterhouses to assess the potential risks of STEC. In total, 524 gauze samples were collected from the surfaces of beef carcasses at 12 domestic slaughterhouses from November 2020 to February 2023. The samples were measured for aerobic plate counts and tested for pathogenic genes (stx and eae) and major O-serogroups (O26, O45, O103, O111, O121, O145, and O157) by real-time PCR screening. Subsequently, immunomagnetic separation (IMS) was performed on samples positive for stx, eae, and at least one of the seven O-serogroups of STEC. Isolation process without IMS was performed on samples positive for stx, including those subjected to IMS. STEC O157:H7 and stx-positive E. coli other than serotype O157:H7 were isolated from 0.6% and 4.6% of beef carcass surfaces, respectively. Although the STEC O157:H7 isolation rate was low and stx-positive E. coli other than serotype O157:H7 belonged to minor O-serogroups, the results mean a risk of foodborne illness. Furthermore, a moderate correlation was observed between aerobic plate counts and detection rates of stx-positive samples by real-time PCR screening. The STEC O157:H7 isolated facilities showed higher values on aerobic plate counts and detection rates of stx-positive samples than the mean values of total samples. Therefore, these results suggest that it is important to evaluate hygiene treatments against beef carcasses for the reduction of STEC contamination risk, particularly in facilities with high aerobic plate counts.

The G2 checkpoint inhibitor CBP-93872 increases the sensitivity of colorectal and pancreatic cancer cells to chemotherapy.

CBP-93872 suppresses maintenance of DNA double-stranded break-induced G2 checkpoint, by inhibiting the pathway between ataxia-telangiectasia mutated (ATM) and ATM- and Rad3-related (ATR) activation. To examine the potential use of CBP-93872 for clinical applications, we analyzed the synergistic effects of platinum-containing drugs, oxaliplatin and cisplatin, pyrimidine antimetabolites, gemcitabine and 5-fluorouracil (5-FU), in combination with CBP-93872, on cell lethality in colorectal and pancreatic cancer cell lines. Treatment with CBP-93872 significantly increased cancer cell sensitivities to various chemotherapeutic agents tested through suppression of checkpoint activation. Our results thus reveal that combination treatment of CBP-93872 with known chemotherapeutic agents inhibits phosphorylation of ATR and Chk1, and induces cell death.

Transport Granules Bound with Nuclear Cap Binding Protein and Exon Junction Complex Are Associated with Microtubules and Spatially Separated from eIF4E Granules and P Bodies in Human Neuronal Processes.

RNA transport and regulated local translation play critically important roles in spatially restricting gene expression in neurons. Heterogeneous population of RNA granules serve as motile units to translocate, store, translate, and degrade mRNAs in the dendrites contain cis-elements and trans-acting factors such as RNA-binding proteins and microRNAs to convey stimulus-, transcript-specific local translation. Here we report a class of mRNA granules in human neuronal processes that are enriched in the nuclear cap-binding protein complex (CBC) and exon junction complex (EJC) core components, Y14 and eIF4AIII. These granules are physically associated with stabilized microtubules and are spatially segregated from eIF4E-enriched granules and P-bodies. The existence of mRNAs retaining both nuclear cap binding protein and EJC in the distal sites of neuronal processes suggests that some localized mRNAs have not yet undergone the "very first translation," which contribute to the spatio-temporal regulation of gene expression.

New pyrosequencing method to analyze the function of the Klenow fragment (EXO-) for unnatural nucleic acids: pyrophosphorolysis and incorporation efficiency.

The incorporation of deoxynucleoside triphosphates (dNTPs) catalyzed by polymerases is conventionally examined using gel electrophoresis autoradiography. Here, we studied an alternative method, pyrosequencing, to verify the incorporation of dNTPs containing unnatural nucleotides by polymerases. We found that the pyrosequencing method more rapidly and easily confirmed the incorporation of dNTPs than the conventional method, especially in the presence of low-efficiency dNTP polymerases. Furthermore, the method can detect the pyrophosphorolysis reaction just before the position of the unnatural nucleic acid, and the efficiency of incorporation just after it.

Latent autoimmune diabetes in an adult.

We report a case of latent autoimmune diabetes in adults (LADA), also known as slowly progressive type 1 diabetes (SPT1D), followed up for changes, including reactivity to the GAD65 antibody epitope for the 9-year period from impaired glucose tolerance (IGT) to the insulin-dependent stage (IDDM). This 69-year-old male was identified as having IGT by health checkup in 1998. As he was GAD65-positive (high titer), we initiated close clinical follow-up. In 2003, a 75-g oral glucose tolerance test showing a diabetic pattern confirmed that he had progressed to diabetes. During this period, fasting plasma glucose remained within normal range and insulin secretion was unchanged compared to that at the time of IGT diagnosis. His fasting plasma glucose and HbA1c levels began to increase in 2004 and serum C-peptide began to decrease in 2005. Insulin treatment was started in August 2006. GAD65 antibody titer was high (13900 U/ml) in 1998 and has remained high throughout follow-up. The patient's GAD65 antibodies were initially directed to the b96.11-defined epitope only, recognized as an indicator of T1D-like pathogenesis in our former study. During follow-up, he developed reactivity to more epitopes (MICA-3 and MICA-4, DPC, and DPA). The course of this case suggests that the b96.11-defined epitope is important for distinguishing LADA patients who progress to IDDM from those who do not and that epitope maturation is restricted to LADA patients who progress to IDDM, an observation similar to that in children at risk for developing typical IDDM.