Buserelin treatment to rats causes enteric neurodegeneration with moderate effects on CRF-immunoreactive neurons and Enterobacteriaceae in colon, and in acetylcholine-mediated permeability in ileum

The gonadotropin-releasing hormone (GnRH) analog buserelin causes enteric neuronal loss. Acute stress or injection of corticotropin-releasing factor (CRF) affects motility, secretion, and barrier function of the gastrointestinal tract. The aim of the study was to characterize the CRF immunoreactivity in enteric neurons after buserelin treatment, and to evaluate possible effects of enteric neuropathy on gut microbiota, intestinal permeability, and stress response behavior

Метод эмболизации маточных артерий в лечении миомы матки

МАТКИ НОВООБРАЗОВАНИЯМИОМАЭМБОЛИЗАЦИЯ ТЕРАПЕВТИЧЕСКАЯАРТЕРИ

The usage of internal communication to engage and motivate employees towards a company’s sustainability goal - A case study of Perrigo Nordic’s internal communication regarding their ‘No-plastic transport packaging’ goal

Background: Due to the increased awareness by society concerning sustainability and the Sustainable Development Goals set for 2030, companies are faced with higher demands on their sustainability commitments. In order for a company to implement and reach its sustainability goals, the management needs to provide employees with information and create a common understanding. This makes internal communication a necessity. Internal communication also motivates and engages the staff to commit and work towards the goals set by the management. Purpose: The purpose of the upcoming essay is to raise the awareness of how to motivate and engage employees with the help of internal communication to corporate sustainability goals. This purpose is hoped to be fulfilled through a case study of the company Perrigo Nordic, and the research question is thereby: How can internal communication engage and motivate employees to work towards Perrigo Nordic’s ‘No-plastic transport packaging’ goal? Method: The study’s theoretical starting point is based on earlier studies and theories, in terms of scientific articles and literature which creates the foundation for the study’s empirical data collection. The study’s empirical data was collected through a case study with Perrigo Nordic. The case study was conducted in a qualitative manner with semi-structured interviews with people working at different positions at the company. Additionally, a supplementary quantitative question poll was sent out to all 120 employees working at Perrigo Nordic. The study was made primarily made in a deductive way. Results and conclusion: There are several combined factors within internal communication which contribute to an increased engagement and motivation. Concluding, and to answer the research question, Perrigo Nordic should customise their internal communication to enhance knowledge and a sense of belonging in order to increase the engagement and motivation towards a clearly defined sustainability goal

Comparison of BRCT domains of BRCA1 and 53BP1: A biophysical analysis

53BP1 interacts with the DNA-binding core domain of the tumor suppressor p53 and enhances p53-mediated transcriptional activation. The p53-binding region of 53BP1 maps to the C-terminal BRCT domains, which are homologous to those found in the breast cancer protein BRCA1 and in other proteins involved in DNA repair. Here we compare the thermodynamic behavior of the BRCT domains of 53BP1 and BRCA1 and examine their ability to interact with the p53 core domain. The free energies of unfolding are of similar magnitude, although slightly higher for 53BP1-BRCT, and both populate an aggregation-prone partly folded intermediate. Interaction studies performed in vitro by analytical size-exclusion chromatography, analytical ultracentrifugation, and isothermal titration calorimetry reveal that 53BP1-BRCT interacts with p53 with a Kd in the low micromolar range. Despite their homology with 53BP1-BRCT domains, the BRCT domains of BRCA1 did not bind p53 with any detectable affinity. In summary, although other studies have indicated that the BRCT domains of both BRCA1 and 53BP1 interact with p53 core domain, the quantitative biophysical measurements performed here indicate that only 53BP1 can bind. Although both proteins may be involved in the same DNA repair pathways, our study indicates that a direct role in p53 function is unique to 53BP1

Site-Specific Radiometal Labeling and Improved Biodistribution Using ABY-027, A Novel HER2-Targeting Affibody Molecule-Albumin-Binding Domain Fusion Protein

Because of their better penetration, smaller targeting proteins may be superior to antibodies for radioimmunotherapy of solid tumors. Therefore, Affibody molecules (6.5 kDa) have a potential for being suitable as targeted moiety for radiolabeled therapeutic proteins. Previous studies have demonstrated that a fusion of an Affibody molecule with an albumin-binding domain (ABD) provides a strong noncovalent binding to albumin in vivo. This strong noncovalent binding can be used for reduction of the renal uptake of the Affibody molecule while maintaining a size smaller than that of an antibody, which is important when using residualizing radionuclide labels conjugated to Affibody molecules. The goal of this study was to design and evaluate a new targeting Affibody–ABD fusion protein with improved biodistribution properties for radionuclide therapy. Methods: A novel Affibody-based construct, ZHER2:2891-ABD035-DOTA (ABY-027), was created by fusion of the reengineered HER2-binding Affibody molecule ZHER2:2891 to the N terminus of the high-affinity ABD035, and a maleimido-derivative of DOTA was conjugated at the C terminus of the construct. Binding and processing of 177Lu-ABY-027 by HER2-expressing cells were evaluated in vitro. Targeting of HER2-expressing SKOV-3 xenografts was evaluated in BALB/C nu/nu mice and compared with targeting of previously reported ABD-(ZHER2:342)2. Results: The binding affinity (dissociation constant) of ABY-027 to HER2 (74 pM) was the same as for the parental ZHER2:2891 (76 pM). ABY-027 was stably labeled with 177Lu and 111In with preserved specific binding to HER2-expressing cells in vitro. In vivo receptor saturation experiments demonstrated that targeting of SKOV-3 xenografts in BALB/C nu/nu mice was HER2-specific. 177Lu-ABY-027 demonstrated substantially (2- to 3-fold) lower renal and hepatic uptake than previously assessed HER2-specific Affibody-based albumin-binding agents. Tumor uptake of radiolabeled ABY-027 at 48 h after injection was 2-fold higher than that for previously reported ABD-(ZHER2:342)2. Conclusion: An optimized molecular design of an ABD fusion protein resulted in an Affibody molecule construct with better properties for therapy. Fully preserved in vivo targeting of the fusion protein was shown in xenografted mice. Site-specific coupling of DOTA provides a uniform conjugate and creates the potential for labeling with a broad range of therapeutic radionuclides. The biodistribution of 177Lu-ABY-027 in a murine model suggests it is more suitable for therapy than alternative approaches

Identification of targetable lesions in anaplastic thyroid cancer by genome profiling

Anaplastic thyroid cancer (ATC) is a rare and extremely malignant tumor with no available cure. The genetic landscape of this malignancy has not yet been fully explored. In this study, we performed whole exome sequencing and the RNA-sequencing of fourteen cases of ATC to delineate copy number changes, fusion gene events, and somatic mutations. A high frequency of genomic amplifications was seen, including 29% of cases having amplification of CCNE1 and 9% of CDK6; these events may be targetable by cyclin dependent kinase (CDK) inhibition. Furthermore, 9% harbored amplification of TWIST1, which is also a potentially targetable lesion. A total of 21 fusion genes in five cases were seen, none of which were recurrent. Frequent mutations included TP53 (55%), the TERT promoter (36%), and ATM (27%). Analyses of mutational signatures showed an involvement of processes that are associated with normal aging, defective DNA mismatch repair, activation induced cytidine deaminase (AID)/apolipoprotein B editing complex (APOBEC) activity, failure of DNA double-strand break repair, and tobacco exposure. Taken together, our results shed new light on the tumorigenesis of ATC and show that a relatively large proportion (36%) of ATCs harbor genetic events that make them candidates for novel therapeutic approaches. When considering that ATC today has a mortality rate of close to 100%, this is highly relevant from a clinical perspective

Crystal structure of the ENT domain of human EMSY

EMSY is a recently discovered gene encoding a BRCA2-associated protein and is amplified in some sporadic breast and ovarian cancers. The EMSY sequence contains no known domain except for a conserved 100 residue segment at the N terminus. This so-called ENT domain is unique in the human genome, although multiple copies are found in Arabidopsis proteins containing members of the Royal family of chromatin remodelling domains. Here, we report the crystal structure of the ENT domain of EMSY, consisting of a unique arrangement of five a-helices that fold into a helical bundle arrangement. The fold shares regions of structural homology with the DNA-binding domain of homeodomain proteins. The ENT domain forms a homodimer via the anti-parallel packing of the extended N-terminal a-helix of each molecule. It is stabilized mainly by hydrophobic residues at the dimer interface and has a dissociation constant in the low micromolar range. The dimerisation of EMSY mediated by the ENT domain could provide flexibility for it to bind two or more different substrates simultaneously

Binding of EMSY to HP1beta: implications for recruitment of HP1beta and BS69

EMSY is a large nuclear protein that binds to the transactivation domain of BRCA2. EMSY contains an 100-residue segment at the amino terminus called the ENT (EMSY N-terminal) domain. Plant proteins containing ENT domains also contain members of the royal family of chromatin-remodelling domains. It has been proposed that EMSY may have a role in chromatin-related processes. This is supported by the observation that a number of chromatin-regulator proteins, including HP1 and BS69, bind directly to EMSY by means of a conserved motif adjacent to the ENT domain. Here, we report the crystal structure of residues 1¿108 of EMSY at 2.0 Å resolution. The structure contains both the ENT domain and the HP1/BS69-binding motif. This binding motif forms an extended peptide-like conformation that adopts distinct orientations in each subunit of the dimer. Biophysical and nuclear magnetic resonance analyses show that the main complex formed by EMSY and the chromoshadow domain of HP1 (HP1-CSD) consists of one EMSY dimer sandwiched between two HP1-CSD dimers. The HP1-binding motif is necessary and sufficient for EMSY to bind to the chromoshadow domain of HP1