Correlation between serum cytokine levels and the effect of allogeneic serum-based eye drops.

INTRODUCTION: The Institute of Hematology and Transfusion Medicine (IHTM) in Warsaw has produced autologous serum eye drops (ASEDs) for the treatment of Dry Eye Syndrome (DES) since 1991. In 2019, IHTM introduced allogeneic tears (alloSEDs) for patients on long-term treatment. MATERIALS AND METHODS: 114 patients who applied alloSEDs were included in the study.They were asked to complete the OSDI questionnaire before and after using ASEDs and 100 units of alloSEDs drops from each donation. The OSDI index rates DES severity (0 no symptoms; 100 severe). We also compared the content of IL-1ß, IL-2, IL- 6, IL-10 and VEGF in ASEDs (38 samples) and alloSEDs (15 serum samples). The study data covered the 2019-2022 period. RESULTS: 114 patients participated in the study. We compared the the effectiveness of ASEDs and alloSEDs. The average, OSDI dropped from 68.42 ± 5,86 (before application) to 51.05 ± 19,06 (after application). Data from the questionnaires (prepared at IHTM) completed and returned (41/114) present the most common indications for the use of serum drops, including DES with no underlying disease, DES secondary to GvHD (Graft versus Host Disease), Sjögren's Syndrome (SS). The study reported higher cytokine levels associated with disease entities such as SS. After application of drops with high cytokine levels, patients reported adverse reactions such as sand under the eyelids, impaired visual acuity, and worse eye lubrication. CONCLUSIONS: AlloSEDs with acceptably low values of pro-inflammatory cytokines and sufficiently high levels of VEGF growth factor may contribute to alleviation of inflammatory eye symptoms.

How can we address the uncertainties regarding the potential clinical utility of polygenic score-based tests?

As common low penetrance variants associated with diseases are uncovered, attempts continue to be made to harness this knowledge for improving healthcare. Polygenic scores have been developed as the mechanism by which knowledge of common variants can be used to investigate genetic contributions to disease risk. They serve as a biomarker to provide an estimate of the genetic liability for a particular disease. Discussion continues as to whether polygenic scores are a useful biomarker and their readiness for incorporation into clinical and public health practice. In this paper, we investigate the key challenges that need to be addressed, in the description and assessment of the clinical utility of polygenic score-based tests for use in clinical and public health practice.

The risk of developing many common diseases, such as heart disease is influenced by both genetic and lifestyle factors. Polygenic scores (PGS) are one way of assessing an individual's risk of developing certain diseases. There is still uncertainty as to whether and how to use PGS for individual care. Much of this is because it is unclear as to whether tests that give a PGS can provide useful information for the care of individuals and patients as part of prevention or healthcare pathways. In this paper, we describe some of the challenges that need to be addressed, so that we can move forward and better understand when and how to use these tests for population and individual benefit.

Prominent hypertrophy of perivascular adipocytes due to short-term high fat diet.

Excessive lipid accumulation is a serious problem in obesity leading to adipose tissue (AT) overgrowth, chronic inflammation, endothelial dysfunction, and elevated risk of cardiovascular complications. In this work, Raman techniques coupled with fluorescence imaging were applied to characterize the effects of short-term (2 weeks) and extended (up to 8 weeks) high-fat diet (HFD) feeding on various depots of the adipose tissue of young and mature mice. Our results proved the synergistic effect of age and HFD-induced obesity manifested by changes in the morphology of adipocytes and the chemical composition of lipids. After 2 weeks of HFD feeding of young animals, substantial hypertrophy of adipocytes but only for the periaortic adipose tissue was detected with a significant decrease in lipid unsaturation degree solely in the epididymal white adipose tissue. The periaortic AT did not altered chemically due to short-term HFD feeding, however, it changed with age and with prolonged exposure to harmful factors. For older animals only brown AT remains resistant on HFD underlying its protective role and highlighting its potential as a target in obesity therapies.

A new approach to study human perivascular adipose tissue of the internal mammary artery by fiber-optic Raman spectroscopy supported by spectral modelling.

Perivascular adipose tissue (PVAT) regulates vascular function and represents a novel therapeutic target in vascular diseases. In this work, a new approach based on fiber-optic Raman spectroscopy and spectral modelling was used to characterize the chemical content of the PVAT of the internal mammary artery (IMA) of patients with advanced coronary atherosclerosis (n = 10) undergoing coronary bypass surgery. Our results showed a high degree of lipid unsaturation and low carotenoid content in the PVAT of the IMA of patients with more advanced coronary artery disease. Moreover, the spectral modelling of the IMA's PVAT composition indicated that glyceryl trioleate was a major PVAT lipid and for patients with relatively low levels of ß-carotene, it was accompanied by arachidonic acid and glyceryl trilinolenate. In summary, our proof-of-concept study suggests that carotenoid content and lipid unsaturation degree may reflect the PVAT functional status and a Raman-based assessment of the PVAT of the IMA could prove useful as a novel diagnostic tool to rapidly define the PVAT phenotype in a grafted artery in patients undergoing coronary bypass.

Author Correction: The identification of carbon dioxide mediated protein post-translational modifications.

The original version of this Article omitted the following from the Acknowledgements: 'This work was support by EPSRC grant EP/K504336/1 and Leverhulme Trust grant RPG-2016-017.' This has been corrected in both the PDF and HTML versions of the Article.

The identification of carbon dioxide mediated protein post-translational modifications.

Carbon dioxide is vital to the chemistry of life processes including metabolism, cellular homoeostasis, and pathogenesis. CO2 is generally unreactive but can combine with neutral amines to form carbamates on proteins under physiological conditions. The most widely known examples of this are CO2 regulation of ribulose 1,5-bisphosphate carboxylase/oxygenase and haemoglobin. However, the systematic identification of CO2-binding sites on proteins formed through carbamylation has not been possible due to the ready reversibility of carbamate formation. Here we demonstrate a methodology to identify protein carbamates using triethyloxonium tetrafluoroborate to covalently trap CO2, allowing for downstream proteomic analysis. This report describes the systematic identification of carbamates in a physiologically relevant environment. We demonstrate the identification of carbamylated proteins and the general principle that CO2 can impact protein biochemistry through carbamate formation. The ability to identify protein carbamates will significantly advance our understanding of cellular CO2 interactions.

Phosphoinositide 3-Kinase-Dependent Signalling Pathways in Cutaneous Squamous Cell Carcinomas.

Cutaneous squamous cell carcinoma (cSCC) derives from keratinocytes in the epidermis and accounts for 15-20% of all cutaneous malignancies. Although it is usually curable by surgery, 5% of these tumours metastasise leading to poor prognosis mostly because of a lack of therapies and validated biomarkers. As the incidence rate is rising worldwide it has become increasingly important to better understand the mechanisms involved in cSCC development and progression in order to develop therapeutic strategies. Here we discuss some of the evidence indicating that activation of phosphoinositide 3-kinases (PI3Ks)-dependent signalling pathways (in particular the PI3Ks targets Akt and mTOR) has a key role in cSCC. We further discuss available data suggesting that inhibition of these pathways can be beneficial to counteract the disease. With the growing number of different inhibitors currently available, it would be important to further investigate the specific contribution of distinct components of the PI3Ks/Akt/mTOR pathways in order to identify the most promising molecular targets and the best strategy to inhibit cSCC.