Similar Expression Levels Research Articles

RNA sequencing comparing centenarian and middle-aged women lymphoblastoid cell lines identifies age-related dysregulated expression of genes encoding selenoproteins, heat shock proteins, CD99, and BID.

Women typically live longer than men, and constitute the majority of centenarians. We applied RNA-sequencing (RNA-seq) of blood-derived lymphoblastoid cell lines (LCLs) from women aged 60-80 years and centenarians (100-105 years), validated the RNA-seq findings by real-time PCR, and additionally measured the differentially expressed genes in LCLs from young women aged 20-35 years. Top RNA-seq genes with differential expression between the age groups included three selenoproteins (GPX1, SELENOW, SELENOH) and three heat shock proteins (HSPA6, HSPA1A, HSPA1B), with the highest expression in LCLs from young women, indicating that young women are better protected from oxidative stress. The expression of two additional genes, BID encoding BH3-interacting domain death agonist and CD99 encoding CD99 antigen, showed unique age dependence, with similar expression levels in young and centenarian women while exhibiting higher and lower expression levels, respectively, in LCLs from women aged 60-80 years compared with the two other age groups. This age-related differential expression of BID and CD99 suggests elevated inflammation susceptibility in middle-aged women compared with either young or centenarian women. Our findings, once validated with human peripheral blood mononuclear cells and further cell types, may lead to novel healthy aging diagnostics and therapeutics.

Evolutionary divergent clusters of transcribed extinct truncated retroposons drive low mRNA expression and developmental regulation in the protozoan Leishmania

BackgroundThe Leishmania genome harbors formerly active short interspersed degenerated retroposons (SIDERs) representing the largest family of repetitive elements among trypanosomatids. Their substantial expansion in Leishmania is a strong predictor of important biological functions. In this study, we combined multilevel bioinformatic predictions with high-throughput genomic and transcriptomic analyses to gain novel insights into the diversified roles retroposons of the SIDER2 subfamily play in Leishmania genome evolution and expression.ResultsWe show that SIDER2 retroposons form various evolutionary divergent clusters, each harboring homologous SIDER2 sequences usually located nearby in the linear sequence of chromosomes. This intriguing genomic organization underscores the importance of SIDER2 proximity in shaping chromosome dynamics and co-regulation. Accordingly, we show that transcripts belonging to the same SIDER2 cluster can display similar levels of expression. SIDER2 retroposons are mostly transcribed as part of 3'UTRs and account for 13% of the Leishmania transcriptome. Genome-wide expression profiling studies underscore SIDER2 association generally with low mRNA expression. The remarkable link of SIDER2 retroposons with downregulation of gene expression supports their co-option as major regulators of mRNA abundance. SIDER2 sequences also add to the diversification of the Leishmania gene expression repertoire since ~ 35% of SIDER2-containing transcripts can be differentially regulated throughout the parasite development, with a few encoding key virulence factors. In addition, we provide evidence for a functional bias of SIDER2-containing transcripts with protein kinase and transmembrane transporter activities being most represented.ConclusionsAltogether, these findings provide important conceptual advances into evolutionary innovations of transcribed extinct retroposons acting as major RNA cis-regulators.

Glial Cell Responses and Gene Expression Dynamics in Retinas of Treated and Untreated RPE65 Mutant Dogs.

The long-term evaluation of RPE65 gene augmentation initiated in middle-aged RPE65 mutant dogs previously uncovered notable inter-animal and intra-retinal variations in treatment efficacy. The study aims to gain deeper insights into the status of mutant retinas and assess the treatment impact. Immunohistochemistry utilizing cell-specific markers and reverse transcription-quantitative PCR (RT-qPCR) analysis were conducted on archival retinal sections from normal and RPE65 mutant dogs. Untreated middle-aged mutant retinas exhibited marked downregulation in the majority of 20 examined genes associated with key retinal pathways. These changes were accompanied by a moderate increase in microglia numbers, altered expression patterns of glial-neuronal transmitter recycling proteins, and gliotic responses in Müller glia. Analysis of advanced-aged mutant dogs revealed mild outer nuclear layer loss in the treated eye compared to moderate loss in the corresponding retinal regions of the untreated control eye. However, persistent Müller glial stress response along with photoreceptor synapse loss were evident in both treated and untreated eyes. Photoreceptor synaptic remodeling, infrequent in treated regions, was observed in all untreated advanced-aged retinas, accompanied by a progressive increase in microglial cells indicative of ongoing inflammation. Interestingly, about half of the examined genes showed similar expression levels between treated and untreated advanced-aged mutant retinas, with some reaching normal levels. Gene expression data suggest a shift from pro-degenerative mechanisms in middle-aged mutant retinas to more compensatory mechanisms in preserved retinal regions at advanced stages, despite ongoing degeneration. Such shift, potentially attributed to a number of surviving resilient cells, may influence disease patterns and treatment outcomes.

Insights into the Detoxification of Spruce Monoterpenes by the Eurasian Spruce Bark Beetle.

Plant defence mechanisms, including physical barriers like toughened bark and chemical defences like allelochemicals, are essential for protecting them against pests. Trees allocate non-structural carbohydrates (NSCs) to produce secondary metabolites like monoterpenes, which increase during biotic stress to fend off pests like the Eurasian spruce bark beetle, ESBB (Ips typographus). Despite these defences, the ESBB infests Norway spruce, causing significant ecological damage by exploiting weakened trees and using pheromones for aggregation. However, the mechanism of sensing and resistance towards host allelochemicals in ESBB is poorly understood. We hypothesised that the exposure of ESBB to spruce allelochemicals, especially monoterpenes, leads to an upsurge in the important detoxification genes like P450s, GSTs, UGTs, and transporters, and at the same time, genes responsible for development must be compromised. The current study demonstrates that exposure to monoterpenes like R-limonene and sabiene effectively elevated detoxification enzyme activities. The differential gene expression (DGE) analysis revealed 294 differentially expressed (DE) detoxification genes in response to R-limonene and 426 DE detoxification genes in response to sabiene treatments, with 209 common genes between the treatments. Amongst these, genes from the cytochrome P450 family 4 and 6 genes (CP4 and CP6), esterases, glutathione S-transferases family 1 (GSTT1), UDP-glucuronosyltransferase 2B genes (UDB), and glucose synthesis-related dehydrogenases were highly upregulated. We further validated 19 genes using RT-qPCR. Additionally, we observed similar high expression levels of detoxification genes across different monoterpene treatments, including myrcene and α-pinene, suggesting a conserved detoxification mechanism in ESBB, which demands further investigation. These findings highlight the potential for molecular target-based beetle management strategies targeting these key detoxification genes.

Plasmid DNA Delivery into the Skin via Electroporation with a Depot-Type Electrode.

Objectives: Non-viral mediated plasmid DNA transfection by electroporation (EP) is an established method for gene transfection. In this study, the usefulness of direct EP at an intradermal (i.d.) site (DEP) with implanted electrodes to achieve a high protein expression level was investigated. In addition, DEP application with various intervals with a low application voltage was also evaluated to confirm its effect on protein expression. Methods: Green fluorescent protein (GFP)- and luciferase-encoding DNA were administrated, and GFP and luciferase were evaluated. Results: A higher protein expression level was observed after green fluorescent protein (GFP)- and luciferase-encoding DNA were delivered by i.d. injection followed by DEP application. When luciferase expression was observed with an in vivo imaging system, continuous expression was confirmed over 21 days after i.d. injection followed by DEP at 100 V. This approach provided increased gene expression levels compared with conventional EP methods via the stratum corneum layer. In addition, the effect of application voltage on luciferase expression was investigated; two-time applications (repeated DEP) at 20 V with 5 min intervals showed similar luciferase expression level to single DEP application with 100 V. Histological observations showed the skin became thicker after a single DEP at 100 V, whereas no apparent thickness changes were confirmed after repeated DEP at 20 V with 5 min intervals. Conclusions: This study revealed that direct i.d. voltage application achieved high protein expression levels even at low voltages. Skin is a promising administration site for DNA vaccines, so this approach may be effective for DNA vaccine delivery into skin tissue.

Abstract B093: The evaluation of the gene expression profile of pancreatic ductal adenocarcinomas (PDACs) in 3D cell culture vs in vivo and development of new 3D PDACs' models for an evaluation of anti-cancer drug testing

Abstract In the ever-evolving landscape of biomedical research, 3D Cell Culture (3DCC) systems have emerged as pivotal tools for mimicking in vivo environments and fostering more physiologically relevant cellular responses. Despite promises, 3DCC based drug discovery efforts didn’t fulfil the hopes. The classic way 3DCC is done, always starts with 2D cell culture (2DCC) followed by brief 3 day 3DCC and finally drug testing. Following those observations we decided to mimic much more than just brief 3DCC state but enhance the culture by constant 3DCC to 3DCC passages. We characterized the gene expression profiles and proteomic characteristics of pancreatic tumors concluding that prolonged 3DCC is the closest to an in vivo model. The protracted cultivation periods mimic the intricacies of the in vivo environment, enabling a more accurate representation of the molecular dynamics within pancreatic tumors. In our study, we identified a panel of genes characterized by similar expression levels between prolonged 3D cell culture and in vivo conditions, while displaying significant divergence between 2D cultures and short-term 3D cultures when compared to in vivo. These genes play a pivotal role in the progression and treatment of cancer, underscoring the potential of prolonged 3DCC of LifeGel® significance in understanding tumor biology and devising therapeutic strategies. Furthermore, we also investigated the implications of prolonged 3D in vitro cultures on evaluating anti-cancer drug activities. The findings highlight the significance of 3DCC in enhancing our understanding of pancreatic tumor biology and in refining drug screening methodologies for more effective therapeutic interventions. By providing a biomimetic microenvironment, our hydrogels facilitate the formation of complex cellular structures, enabling more accurate representation of tissue architecture and cellular interactions. We delivered LifeGel® platform which presents a myriad of opportunities for researchers seeking to enhance the fidelity and translatability of their in vitro studies into pre-clinial models. Citation Format: Marcin Krzykawski, David Earnshaw, Krzysztof Kus, Artur Pirog, Sachin Kote, Mark Treherne, Justyna Kocik-Krol. The evaluation of the gene expression profile of pancreatic ductal adenocarcinomas (PDACs) in 3D cell culture vs in vivo and development of new 3D PDACs' models for an evaluation of anti-cancer drug testing [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: Advances in Pancreatic Cancer Research; 2024 Sep 15-18; Boston, MA. Philadelphia (PA): AACR; Cancer Res 2024;84(17 Suppl_2):Abstract nr B093.

Abstract MP33: A20 in the Kidney Epithelium Attenuates Angiotensin II-induced Hypertension by Constraining Renal Tubular NHE3 Expression

Whereas the ubiquitin editor A20 limits NF-κB-mediated signaling in myeloid leukocytes, the functions of A20 in renal epithelial cells during hypertension have not been described. We recently found that A20 in the kidney tubule ameliorates hypertension and cardiac hypertrophy induced by chronic angiotensin (Ang) II infusion (500ng/kg/min) in mice. Here we report that following 3 weeks of hypertension, the kidneys of mice with tubular deletion of A20 in the kidney epithelium (“A20 iKKO” = A20 flox/flox Pax8-rtTA TetO-Cre + ) have augmented protein expression of the proximal tubular sodium transporter NHE3 (1.5±0.1 vs. 1.0±0.1; p <0.01) but similar levels of ENaC subunit expression in the collecting tubule ( p =NS for all 3 subunits) vs wild-type (WT) controls. Moreover, kidneys from A20 iKKO mice have upregulated mRNA levels for the T cell chemokine CCL5 (2.4±0.3 vs. 1.0±0.3; p <0.01) and higher proportions of effector memory CD8 + T cells (51.2±2.3 vs. 39.3±2.9 % of CD8 + ; p =0.013) compared to WTs despite similar numbers of effector memory T cells in the spleen ( p =NS). To examine whether A20 in the kidney attenuates hypertension by constraining tubular NHE3 expression, we bred A20 iKKO mice with an NHE3 flox/flox line, thereby generating mice with double A20 and NHE3 deletion in the kidney tubule (“Dual KKO”) mice. At baseline, kidneys from Dual KKO mice showed robust reductions in mRNA for A20 (0.5±0.1 vs. 1.0±0.1; p =0.022) and NHE3 (0.2±0.05 vs. 1.0±0.15; p =0.002) compared to WT littermates. During the first ten days of Ang II infusion, mean arterial pressures (MAPs) in the Dual KKO mice were lower than the MAPs previously recorded in our A20 iKKO cohort (129±3 vs. 152±4 mmHg; p <0.01). Moreover, during 3 weeks of Ang II infusion, Dual KKO and WT mice maintained similar MAPs (145±7 vs. 149±13 mmHg; p =0.78), and heart weight to body weight ratios (5.9±0.3 vs. 5.5±0.2 mg/g; p =0.37) in concomitant measurements. Thus, A20 in the kidney tubule blunts the chronic hypertensive response by curtailing NHE3 expression. Our data further suggest that A20 in the nephron can blunt renal inflammation without altering systemic T cell immunity. Stimulating the A20 signaling pathway in the kidney may thus attenuate NHE3-dependent hypertension without conferring attendant risks of global immunosuppression.

O70 INVOLVEMENT OF MICRORNAs-146a-5P, -155-5P, AND -29b-5P IN CARDIAC REMODELLING AND DYSFUNCTION IN SPONTANEOUSLY HYPERTENSIVE RATS

Background: MicroRNAs have been implicated in the pathogenesis of cardiovascular disease. However, the contribution of microRNAs remain poorly understood in the context of hypertensive cardiac pathology. Aim: We investigated the role of miR-146a-5p, -155-5p, and -29b-5p in the development of cardiac hypertrophy and dysfunction in male and female spontaneously hypertensive rats (SHR). Methods: Seven (7)-month-old SHR (n=7 male, n=10 female), and age- and sex-matched normotensive Wistar Kyoto rats (WKY, n=7 male, n=9 female) were used for the study. Cardiac geometry and function were determined from echocardiography. Plasma levels of inflammatory markers were measured by ELISA. Collagen fraction area was determined from histological sections of the left ventricle (LV). MicroRNA, and mRNA expression of target genes was determined in the LV by RT-qPCR. Group differences were ascertained from 2-way ANOVA. Associations were determined from pearson's correlation. Results: In SHR, normalised heart and LV masses, LVPWTd, RWT, E, A, E/e’, and collagen fraction area were significantly greater compared to WKY. MidFS, e’, and a’ were significantly lower in SHR versus WKY. Female rats exhibited significantly greater LV mRNA expression of Lox1, Col1a/Col3a ratio, and plasma levels of CRP, IL-6, and TNF-α compared to males. MiR-29b-5p showed similar expression levels across experimental groups. MiR-146a-5p was upregulated in SHR and exhibited positive associations with BP, normalised heart and LV masses, RWT, collagen fraction area, and E/e’ ratio, but negative associations with e’. Conversely, miR-155-5p was downregulated in females and only positively associated with absolute heart, LV, kidney masses, and stroke volume. Conclusion: Upregulation of miR-146a-5p was associated with indices of concentric LVH, diastolic dysfunction, reactive fibrosis, and may be involved in the hypertensive-induced LV remodelling; whereas, changes in expression of miR-155-5p may be involved with a cardiac phenotype related to sexual dimorphism.

Substitutions in the nonactive site of the passenger domain on the activity of Haemophilus influenzae immunoglobulin A1 protease.

Immunoglobulin A1 (IgA1) protease is a critical virulence factor of Haemophilus influenzae that facilitates bacterial mucosal infection. This study investigates the effect of iga gene polymorphism on the enzymatic activity of H. influenzae IgA1 protease. The IgA1 protease activity was examined in the H. influenzae Rd KW20 strain and 51 isolates. Genetic variations in iga and deduced amino acid substitutions affecting IgA1 protease activity were assessed. Machine learning tools and functional complementation assays were used to analyze the effects of identified substitutions on the stability and activity of IgA1 protease, respectively. All 51 isolates exhibited similar iga expression levels. No igaB expression was detected. According to comparisons with the reference Rd KW20 strain, four substitutions in the protease domain, 26 in the nonprotease passenger domain, and two in the β-barrel domain were associated with the change in IgA1 protease activity. No substitutions in the catalytic site of IgA1 protease were observed. Logistic regression, receiver operating characteristic curves, Venn diagrams, and protein stability analyses revealed that the substitutions Asn352Lys, Pro353Ala, Lys356Asn, Gln916Lys, and Gly917Ser, which were located in the nonactive site of the passenger domain, were associated with decreases in IgA1 protease activity and stability, whereas Asn914Lys was associated with an increase in these events. Functional complementation assays revealed that the Asn914Lys substitution increased IgA1 protease activity in the Rd KW20 strain. This study identified substitutions in the nonactive site of the passenger domain that affect both the activity and stability of H. influenzae IgA1 protease.

Hybridization between Aedes aegypti and Aedes mascarensis mosquitoes leads to disruption of male sex determination

Understanding the sex determination pathway and its disruptions in mosquitoes is critical for the effective control of disease vectors through genetic manipulations based on sex separation. When male hybrids of Aedes aegypti females and Ae. mascarensis males are backcrossed to Ae. aegypti females, a portion of the backcross progeny manifests as males with abnormal sexual differentiation. We discovered a significant correlation between pupal abnormalities and the feminization of subsequent adults exemplified by the relative abundance of ovarian and testicular tissues. All intersex individuals were genetic males as they expressed a male determining factor, Nix. Further, our analysis of the sex-specific splicing of doublesex and fruitless transcripts demonstrated the presence of both male and female splice variants indicating that sex determination is disrupted. A comparative transcriptomic analysis revealed similar expression levels of most female-associated genes in reproductive organs and carcasses between intersexual males and normal females. Moreover, intersexes had largely normal gene expression in testes but significant gene downregulation in male accessory glands when compared with normal males. We conclude that evolving hybrid incompatibilities between Ae. aegypti and Ae. mascarensis involve disruption of sex determination and are accompanied by changes in gene expression associated with sexual differentiation.

Evaluation of two transposases for improving expression of recombinant proteins in Chinese hamster ovary cell stable pools by co-transfection and supertransfection approaches.

Transposons are genetic elements capable of cutting and pasting genes of interest via the action of a transposase and offer many advantages over random or targeted integration of DNA in the creation of Chinese hamster ovary (CHO) cell lines for recombinant protein expression. Unique transposases have different recognition sites, allowing multiple transposases to be co-transfected together. They also allow for supertransfection (transfection on a previously transfected pool or cell line) with a second transposase to integrate additional copies of the same gene or an additional gene without disruption of the previously integrated DNA which to our knowledge has not been previously described in literature. Two fluorescent proteins, EGFP and tagRFP657, were either co-transfected or supertransfected into CHO cells using two unique transposases and showed high expression efficiency with similar expression levels (measured as mean fluorescence intensity), regardless of whether the genes were co-transfected or supertransfected onto an existing stable pool. Additionally, dual selection of the genes, both in the absence of L-glutamine and the presence of puromycin, led to higher expression levels than single selection alone. These results demonstrate that supertransfection using unique transposases could be a useful strategy for increasing titers of existing cell lines or for overexpressing helper (non-therapeutic) genes to improve expression and/or product quality of existing pools and cell lines, potentially saving significant time and resources.

Similar Viral and Immune Characteristics of Kaposi Sarcoma in ART-treated People Living With HIV and Older Patients With Classic Kaposi Sarcoma.

Reemergence of human herpesvirus 8 (HHV-8)-induced Kaposi sarcoma (KS) in people living with HIV (PLWH) despite antiretroviral therapy (ART) poses a clinical challenge because they already have favorable CD4 T-cell numbers and undetectable viral loads. We observed that clinical presentation in PLWH on ART resembled classic KS found in older HIV-uninfected patients and hypothesized that immunosenescence may thus play a role in occurrence of KS on ART. We compared viral and immune factors implicated in the development of KS in ART-treated PLWH (HIV KS) and HIV-uninfected classic KS patients (cKS), compared to controls without KS (HIV Control, cControls respectively). Plasma, peripheral blood mononuclear cell, and skin tissues were obtained from 11 HIV KS and 11 cKS patients and 2 groups of age-matched controls. HIV KS participants were younger than cKS (aged 53 vs 75 years). HHV-8 genotypes did not differ between groups. Despite the younger age and a lower CD4/CD8 ratio, activated, exhausted, and senescent T-cell frequencies were similar between HIV KS and cKS. Anti-HHV-8 immunoglobulin G levels were higher and circulating HHV-8 DNA lower in HIV KS compared with cKS. Circulating platelet-derived growth factors AA-BB and granulocyte colony-stimulating factors were higher in HIV KS We observed similar levels of HHV-8 DNA and PD-1 expression in skin lesions from HIV KS and cKS patients. Altogether, early immune senescence could be involved in the development of KS in ART-treated PLWH. Higher anti-HHV-8 immunoglobulin G levels could be linked with lower circulating viral load. Such insights should help developing therapeutical strategies to prevent development and treat KS in PLWH on ART.

Immunogenic Comparison of Nucleic Acid-Based Vaccines Administered by Pyro-Drive Jet Injector.

mRNA vaccines were successfully developed and approved for emergency use to fight coronavirus disease 2019. However, the effect of DNA vaccines against SARS-CoV-2 is considerably lower than that of mRNA vaccines. A pyro-drive jet injector (PJI) efficiently delivers plasmid DNA intradermally into animal models. Here, we compared the immunogenic potential of DNA and mRNA vaccines in mice using the same platform. PJI was used to deliver naked mRNA and pDNA and their efficacy in inducing antigen expression and immune responses was assessed. Our results showed that PJI efficiently delivered mRNA into the skin, and a smaller effective dose than that of pDNA injection was required to achieve similar levels of antigen expression. The PJI-delivered CpG-free pDNA vaccine efficiently induced antigen-specific antibody production and a cell-mediated IFN-γ response compared to the mRNA vaccine, as well as the upregulation of inflammatory cytokines (IL-6, IFN-γ, and IL-1β) in the skin and lymph nodes. However, the intradermal mRNA vaccine was significantly less immunogenic than the standard intramuscular mRNA-lipid nanoparticle vaccine, despite equivalent mRNA dosages. Improvements in lipid nanoparticle and mRNA technology have revolutionized mRNA vaccines, and DNA vaccines can be similarly modified for higher clinical efficacy.

A Critical Role of Culture Medium Selection in Maximizing the Purity and Expansion of Natural Killer Cells.

Natural killer (NK) cells hold promise in cancer treatment due to their ability to spontaneously lyse cancer cells. For clinical use, high quantities of pure, functional NK cells are necessary. Combining adherence-based isolation with specialized media showed the unreliability of the isolation method, but demonstrated the superiority of the NK MACS® medium, particularly in suboptimal conditions. Neither human pooled serum, fetal calf serum (FCS), human platelet lysate, nor chemically defined serum replacement could substitute human AB serum. Interleukin (IL-)2, IL-15, IL-21, and combined CD2/NKp46 stimulation were assessed. IL-21 and CD2/NKp46 stimulation increased cytotoxicity, but reduced NK cell proliferation. IL-15 stimulation alone achieved the highest proliferation, but the more affordable IL-2 performed similarly. The RosetteSep™ human NK cell enrichment kit was effective for isolation, but the presence of peripheral blood mononuclear cells (PBMCs) in the culture enhanced NK cell proliferation, despite similar expression levels of CD16, NKp46, NKG2D, and ICAM-1. In line with this, purified NK cells cultured in NK MACS® medium with human AB serum and IL-2 demonstrated high cytotoxicity against primary glioblastoma stem cells.

P-661 Comparative and descriptive molecular analysis of cumulus and luteinized mural granulosa cells for steroidogenic function in IVF patients

Abstract Study question Do cumulus granulosa cells (CCs) have steroidogenic function and gonadotropin response like luteinized mural granulosa cells (LMGCs)? Summary answer Yes. Both types of granulosa cells have similar expression levels for the steroidogenic enzymes and hCG/LH receptors. What is known already CCs and LMGCs have distinct roles in follicular development, oocyte growth and maturation, cumulus expansion, ovulation, and luteinization. CCs support oocytes, especially during meiotic resumption, ovulation, and fertilization. They exhibit specialized functions in response to hormones like LH and participate in bidirectional communication with the oocyte. Although LMGCs are primarily responsible for steroidogenic function and progesterone (P4) production, very limited data is available as to whether CC themselves express the steroidogenic enzymes and gonadotropin receptors and produce sex steroids at basal or after gonadotropin stimulation in humans. We aimed to address this issue in the current study. Study design, size, duration An in-vitro basic science study was designed to compare CCs and LGMCs in the context of vitality, steroidogenic capabilities (both in baseline and response to rec-hCG (10 IU/ml), and EGF pathway responses. The assessment was planned to compare hormonal assay in spent culture and transcriptional levels. The study’s duration encompassed the period of ovarian stimulation, oocyte retrieval, and subsequent cellular analysis. Participants/materials, setting, methods 24 IVF patients undergoing ovarian stimulation with progestin primed (PPOS) and GnRH antagonist protocols for different infertility etiologies were included. Ovarian stimulation and ovulation trigger were done using rec-FSH and rec-hCG, respectively. CCs were collected from the denudation plate. LMGCs were obtained from follicular aspirates during the OPU and cultured individually for each patient without pooling in culture plates. After overnight incubation, the cells were treated with rec-hCG overnight. RNA isolation was performed. Main results and the role of chance The expression of the steroidogenic enzymes (StAR, SCC, 17B-HSD, 3B-HSD, Aromatase), LH receptor and EGF-like amphiregulin (AREG) in CCs were comparable to LMGCs on quantitative RT-PCR analysis. In line with this finding, we found they produced similar amounts of estradiol (E2) and progesterone (P4) in culture. Furthermore, similar to LMGCs, hCG treatment of the CCs resulted in a significant increase in P4 output, indicative of the presence of functional LH receptors. When the culture period was extended to six days, CCs retained their vitality and steroidogenic function like LMGCs and produced detectable E2 and P4. Limitations, reasons for caution Caution should be exercised when interpreting our data as it is unclear if the parameters analyzed here vary according to the infertility etiology, stimulation protocol, mode of trigger and any underlying disease that concomitantly present. Wider implications of the findings Prominent steroidogenic activity of CCs might have other important implications for a successful pregnancy. Moreover, similar expression profiles of steroidogenic pathways and hCG/LH receptors between CCs and LMGCs indicate that CCs can also be used to understand better the luteal function and intricate crosstalk between in oocyte microenvironment. Trial registration number N/A

Hyperglycemia impairs EAAT2 glutamate transporter trafficking and glutamate clearance in islets of Langerhans: implications for type 2 diabetes pathogenesis and treatment.

Pancreatic endocrine cells employ a sophisticated system of paracrine and autocrine signals to synchronize their activities, including glutamate, which controls hormone release and β-cell viability by acting on glutamate receptors expressed by endocrine cells. We here investigate whether alteration of the excitatory amino acid transporter 2 (EAAT2), the major glutamate clearance system in the islet, may occur in type 2 diabetes mellitus and contribute to β-cell dysfunction. Increased EAAT2 intracellular localization was evident in islets of Langerhans from T2DM subjects as compared with healthy control subjects, despite similar expression levels. Chronic treatment of islets from healthy donors with high-glucose concentrations led to the transporter internalization in vesicular compartments and reduced [H3]-d-glutamate uptake (65 ± 5% inhibition), phenocopying the findings in T2DM pancreatic sections. The transporter relocalization was associated with decreased Akt phosphorylation protein levels, suggesting an involvement of the phosphoinositide 3-kinase (PI3K)/Akt pathway in the process. In line with this, PI3K inhibition by a 100-µM LY294002 treatment in human and clonal β-cells caused the transporter relocalization in intracellular compartments and significantly reduced the glutamate uptake compared to control conditions, suggesting that hyperglycemia changes the trafficking of the transporter to the plasma membrane. Upregulation of the glutamate transporter upon treatment with the antibiotic ceftriaxone rescued hyperglycemia-induced β-cells dysfunction and death. Our data underscore the significance of EAAT2 in regulating islet physiology and provide a rationale for potential therapeutic targeting of this transporter to preserve β-cell survival and function in diabetes.NEW & NOTEWORTHY The glutamate transporter SLC1A2/excitatory amino acid transporter 2 (EAAT2) is expressed on the plasma membrane of pancreatic β-cells and controls islet glutamate clearance and β-cells survival. We found that the EAAT2 membrane expression is lost in the islets of Langerhans from type 2 diabetes mellitus (T2DM) patients due to hyperglycemia-induced downregulation of the phosphoinositide 3-kinase/Akt pathway and modification of its intracellular trafficking. Pharmacological rescue of EAAT2 expression prevents β-cell dysfunction and death, suggesting EAAT2 as a new potential target of intervention in T2DM.

Involvement of ArlI, ArlJ, and CirA in archaeal type IV pilin-mediated motility regulation.

Many prokaryotes use swimming motility to move toward favorable conditions and escape adverse surroundings. Regulatory mechanisms governing bacterial flagella-driven motility are well-established; however, little is yet known about the regulation underlying swimming motility propelled by the archaeal cell surface structure, the archaella. Previous research showed that the deletion of the adhesion pilins (PilA1-6), subunits of the type IV pili cell surface structure, renders the model archaeon Haloferax volcanii non-motile. In this study, we used ethyl methanesulfonate mutagenesis and a motility assay to identify motile suppressors of the ∆pilA[1-6] strain. Of the eight suppressors identified, six contain missense mutations in archaella biosynthesis genes, arlI and arlJ. In trans expression of arlI and arlJ mutant constructs in the respective multi-deletion strains ∆pilA[1-6]∆arlI and ∆pilA[1-6]∆arlJ confirmed their role in suppressing the ∆pilA[1-6] motility defect. Additionally, three suppressors harbor co-occurring disruptive missense and nonsense mutations in cirA, a gene encoding a proposed regulatory protein. A deletion of cirA resulted in hypermotility, while cirA expression in trans in wild-type cells led to decreased motility. Moreover, quantitative real-time PCR analysis revealed that in wild-type cells, higher expression levels of arlI, arlJ, and the archaellin gene arlA1 were observed in motile early-log phase rod-shaped cells compared to non-motile mid-log phase disk-shaped cells. Conversely, ∆cirA cells, which form rods during both early- and mid-log phases, exhibited similar expression levels of arl genes in both growth phases. Our findings contribute to a deeper understanding of the mechanisms governing archaeal motility, highlighting the involvement of ArlI, ArlJ, and CirA in pilin-mediated motility regulation.IMPORTANCEArchaea are close relatives of eukaryotes and play crucial ecological roles. Certain behaviors, such as swimming motility, are thought to be important for archaeal environmental adaptation. Archaella, the archaeal motility appendages, are evolutionarily distinct from bacterial flagella, and the regulatory mechanisms driving archaeal motility are largely unknown. Previous research has linked the loss of type IV pili subunits to archaeal motility suppression. This study reveals three Haloferax volcanii proteins involved in pilin-mediated motility regulation, offering a deeper understanding of motility regulation in this understudied domain while also paving the way for uncovering novel mechanisms that govern archaeal motility. Understanding archaeal cellular processes will help elucidate the ecological roles of archaea as well as the evolution of these processes across domains.

Possible role of intestinal fungal dysbiosis in dectin-1 and cytokines expression in patients with ulcerative colitis.

Dysregulation of cytokines and intestinal mycobiome has been surveyed in the progression of inflammatory bowel diseases (IBDs), including ulcerative colitis (UC) and Crohn's disease (CD). On the other hand, the intestinal fungal flora and its main receptor, Dectin-1, induce immune-derived cytokines. Total 64 individuals comprising 32 patients with UC (case group) and 32 healthy subjects (HS group) were assessed. The type and prevalence of fecal yeast species were determined by deoxyribonucleic acid (DNA) sequencing through polymerase chain reaction (PCR) amplification usingITS4 and ITS5 primers. Furthermore, the ribonucleic acid (RNAs) of IL-4, IL-10, IL-17, IL-22 and IFN-γ were extracted. The expression of Dectin-1 gene was then measured in the excised tissue samples. A higher global fungal load in UC-affectedpatients (75%) was found in comparison with the HS group (25%), especially Candida albicans. Saccharomyces cerevisiae was significantly reduced in the fecal samples of UC-affected patients compared to HS (15.04% vs. 1.93% UC). The expression level of Dectin-1 was significantly elevated in patients with active UC (7.37 ± 0.81) than in patients with non-active UC (5.01 ± 77.25) and healthy controls (0.97 ± 0.24) (p < 0.05). The expression levels of IL-4, IL-10, especially both IL-17 and IL-22, were higher in the active UC group compared to the HS group (p = 0.0101, p = 0.0155, p < 0.0001, p < 0.0001, respectively). Similar expression level of IL-4, IL-10, IL-17, IL-22 (p > 0.999) and lower expression of interferongamma (IFN-γ) (p = 0.0021) were found in the non-active UC group compared to the HS group. A significant weak to moderate correlation was detected between Dectin-1 and IL-17 (r = 0.339, p = 0.019), as well as Dectin-1 and IL-22 (r = 0.373, p = 0.015). Furthermore, the expression levels of Dectin-1, IL-17 and IL-22 displayed significant associations with disease activity (p < 0.001, p = 0.029 and p = 0.003, respectively), regardless of the participant group. The current study revealed a possible role for intestinal fungi to promote colonic inflammation and increase UC activity through Dectin-1 stimulation. A positive correlation was detected between intestinal fungal richness with UC susceptibility and activity. IL-4 and IL-10 were associated with disease activity. Besides, the expression levels of Dectin-1, IL-17 and IL-22 were independently associated with disease activity.

Manganese porphyrin-based treatment improves fetal-placental development and protects against oxidative damage and NLRP3 inflammasome activation in a rat maternal hypothyroidism model

Oxidative stress (OS) and endoplasmic reticulum stress (ERS) are at the genesis of placental disorders observed in preeclampsia, intrauterine growth restriction, and maternal hypothyroidism. In this regard, cationic manganese porphyrins (MnPs) comprise potent redox-active therapeutics of high antioxidant and anti-inflammatory potential, which have not been evaluated in metabolic gestational diseases yet. This study evaluated the therapeutic potential of two MnPs, [MnTE-2-PyP]5+ (MnP I) and [MnT(5-Br-3-E-Py)P]5+ (MnP II), in the fetal-placental dysfunction of hypothyroid rats. Hypothyroidism was induced by administration of 6-Propyl-2-thiouracil (PTU) and treatment with MnPs I and II 0.1 mg/kg/day started on the 8th day of gestation (DG). The fetal and placental development, and protein and/or mRNA expression of antioxidant mediators (SOD1, CAT, GPx1), hypoxia (HIF1α), oxidative damage (8-OHdG, MDA), ERS (GRP78 and CHOP), immunological (TNFα, IL-6, IL-10, IL-1β, IL-18, NLRP3, Caspase1, Gasdermin D) and angiogenic (VEGF) were evaluated in the placenta and decidua on the 18th DG using immunohistochemistry and qPCR. ROS and peroxynitrite (PRX) were quantified by fluorometric assay, while enzyme activities of SOD, GST, and catalase were evaluated by colorimetric assay. MnPs I and II increased fetal body mass in hypothyroid rats, and MnP I increased fetal organ mass. MnPs restored the junctional zone morphology in hypothyroid rats and increased placental vascularization. MnPs blocked the increase of OS and ERS mediators caused by hypothyroidism, showing similar levels of expression of HIFα, 8-OHdG, MDA, Gpx1, GRP78, and Chop to the control. Moreover, MnPs I and/or II increased the protein expression of SOD1, Cat, and GPx1 and restored the expression of IL10, Nlrp3, and Caspase1 in the decidua and/or placenta. However, MnPs did not restore the low placental enzyme activity of SOD, CAT, and GST caused by hypothyroidism, while increased the decidual and placental protein expression of TNFα. The results show that treatment with MnPs improves the fetal-placental development and the placental inflammatory state of hypothyroid rats and protects against oxidative stress and reticular stress caused by hypothyroidism at the maternal-fetal interface.

Dimorphic Regulation of the MafB Gene by Sex Steroids in Hamsters, Mesocricetus auratus.

MafB is a transcription factor that regulates macrophage differentiation. Macrophages are a traditional feature of the hamster Harderian gland (HG); however, studies pertaining to MafB expression in the HG are scant. Here, the full-length cDNA of the MafB gene in hamsters was cloned and sequenced. Molecular characterization revealed that MafB encodes a protein containing 323 amino acids with a DNA-binding domain, a transactivation domain, and a leucine zipper domain. qPCR assays indicated that MafB was expressed in different tissues of both sexes. The highest relative expression levels in endocrine tissues were identified in the pancreas. Gonadectomy in male hamsters was associated with significantly higher mRNA levels in the HG; replacement with dihydrotestosterone restored mRNA expression. The HG in male hamsters contained twofold more MafB mRNA than the HG of female hamsters. Adrenals revealed similar mRNA relative expression levels during the estrous cycle. The estrous phase was associated with higher mRNA levels in the ovary. A significantly up-regulated expression and sexual dimorphism of MafB was found in the pancreas. Therefore, MafB in the HG may play an active role in the macrophage differentiation required for phagocytosis activity and intraocular repair. Additionally, sex steroids appear to strongly influence the MafB expression in the HG and pancreas. These studies highlight the probable biological importance of MafB in immunological defense and pancreatic β cell regulation.