A multi-country test of brief reappraisal interventions on emotions during the COVID-19 pandemic

The COVID-19 pandemic has increased negative emotions and decreased positive emotions globally. Left unchecked, these emotional changes might have a wide array of adverse impacts. To reduce negative emotions and increase positive emotions, we tested the effectiveness of reappraisal, an emotion-regulation strategy that modifies how one thinks about a situation. Participants from 87 countries and regions (n = 21,644) were randomly assigned to one of two brief reappraisal interventions (reconstrual or repurposing) or one of two control conditions (active or passive). Results revealed that both reappraisal interventions (vesus both control conditions) consistently reduced negative emotions and increased positive emotions across different measures. Reconstrual and repurposing interventions had similar effects. Importantly, planned exploratory analyses indicated that reappraisal interventions did not reduce intentions to practice preventive health behaviours. The findings demonstrate the viability of creating scalable, low-cost interventions for use around the world

Searching for inhibitors of fungal 17β-hydroxysteroid dehydrogenase.

17β-Hydroxysteroid dehydrogenases (17β-HSDs) have key roles in hormonal regulation and function in the human, and as such they represent emerging therapeutic targets for the control of estrogen- and androgen-dependent diseases. Our model enzyme is 17β-HSD from the fungus Cochliobolus lunatus (17β-HSDcl), and we have used different approaches to find potent inhibitors of this enzyme. Using “classical” inhibition assays, we have shown that some phytoestrogens and cinnamic acid esters are potent in their inhibition of the oxidation of 4-estrene-17β-ol-3-one and the reduction of 4-estrene-3,17-dione catalyzed by 17β-HSDcl. We have also examined peptides as potential inhibitors of 17β-HSDcl on the basis that this enzyme is a homodimer under native conditions. Thus, compounds that specifically prevent the formation of dimers could represent a new class of inhibitors, since dimerization is a prerequisite for catalysis. We have shown that a 33-amino-acid-long peptide binds to the dimerization surface, prevents the formation of dimers, and consequently inhibits 17β--HSDcl. Finally, we also show that phage display provides another tool in the search for inhibitors that bind to the surface or in the active site of 17β--HSDcl

Cystic fibrosis gene mutations and linked RFLPs in the Slovenian population

The authors used polymerase chain reaction to analyse 56 Slovenian cystic fibrosis (CF) chromosomes for the presence of delta F508 and eight other most frequent mutations located in exons 7,11 and 20 (R347P, R334W, G551D, R553X, S549RA, S549RT, S549I and S1255X) of the CF gene. We also determined the frequency of haplotypes associated with CF for six linked RFLP markers (MetD/TaqI, MetH/TaqI, XV-2c/TaqI, KM-19/PstI, MP6d9/MspI and J3.11/MspI) in 27 Slovenian CF families. delta F508 mutation was present in 55.4 percent of the CF chromosomes. No case of the other mutations were detected in the sample of tested CF chromosomes. A very high degree of association (0.88) has been found between DNA marker MetH and CF (as measured by the Yule's association coefficient) in our population. Using the RFLP markers XV-2c and KM-19, we found that 85% of delta F508 mutated chromosomes have a single 1 2 (B) haplotype, and that this haplotype is present on only 15.4 percent of CF chromosomes without this deletion

Biosimilars, generic versions of the first generation of therapeutic proteins: Do they exist?

This contribution dcscribes the present regulatory status in the EU of biosimilars, the generic versions of the first generation of therapeutic proteins. It points out why and where recombinant protein molecules and low-molecular-weight drugs differ in their behaviour and why biosimilars should be handled differently than generic low-molecular-weight drugs. This information is important for practitioners (pharmacists and physicians) while selecting the best supplier of a therapeutic protein. Copyright (c) 2005 S. Karger AG, Basel

A human protein containing multiple types of protease-inhibitory modules

By using sensitive homology-search and gene-finding programs, we have found that a genomic region from the tip of the short arm of human chromosome 16 (16p13.3) encodes a putative secreted protein consisting of a domain related to the whey acidic protein (WAP) domain, a domain homologous with follistatin modules of the Kazal-domain family (FS module), an immunoglobulin-related domain (Ig domain), two tandem domains related to Kunitz-type protease inhibitor modules (KU domains), and a domain belonging to the recently defined NTR-module family (NTR domain). The gene encoding these WAP, FS, Ig, KU, and NTR modules (hereafter referred to as the WFIKKN gene) is intron-depleted—its single 1,157-bp intron splits the WAP module. The validity of our gene prediction was confirmed by sequencing a WFIKKN cDNA cloned from a lung cDNA library. Studies on the tissue-expression pattern of the WFIKKN gene have shown that the gene is expressed primarily in pancreas, kidney, liver, placenta, and lung. As to the function of the WFIKKN protein, it is noteworthy that it contains FS, WAP, and KU modules, i.e., three different module types homologous with domains frequently involved in inhibition of serine proteases. The protein also contains an NTR module, a domain type implicated in inhibition of zinc metalloproteinases of the metzincin family. On the basis of its intriguing homologies, we suggest that the WFIKKN protein is a multivalent protease inhibitor that may control the action of multiple types of serine proteases as well as metalloproteinase(s)