Showing total 900 results

151. Mitochondria from osteolineage cells regulate myeloid cell-mediated bone resorption.

Author

Ding, Peng, Gao, Chuan, Zhou, Jian, Mei, Jialun, Li, Gan, Liu, Delin, Li, Hao, Liao, Peng, Yao, Meng, Wang, Bingqi, Lu, Yafei, Peng, Xiaoyuan, Jiang, Chenyi, Yin, Jimin, Huang, Yigang, Zheng, Minghao, Gao, Youshui, Zhang, Changqing, and Gao, Junjie

Subjects

MYELOID cells, BONE resorption, DISEASE progression, MITOCHONDRIA, CELL determination, HOMEOSTASIS, BLOOD cells, MITOCHONDRIAL membranes

Abstract

Interactions between osteolineage cells and myeloid cells play important roles in maintaining skeletal homeostasis. Herein, we find that osteolineage cells transfer mitochondria to myeloid cells. Impairment of the transfer of mitochondria by deleting MIRO1 in osteolineage cells leads to increased myeloid cell commitment toward osteoclastic lineage cells and promotes bone resorption. In detail, impaired mitochondrial transfer from osteolineage cells alters glutathione metabolism and protects osteoclastic lineage cells from ferroptosis, thus promoting osteoclast activities. Furthermore, mitochondrial transfer from osteolineage cells to myeloid cells is involved in the regulation of glucocorticoid-induced osteoporosis, and glutathione depletion alleviates the progression of glucocorticoid-induced osteoporosis. These findings reveal an unappreciated mechanism underlying the interaction between osteolineage cells and myeloid cells to regulate skeletal metabolic homeostasis and provide insights into glucocorticoid-induced osteoporosis progression. Bone and blood lineage cells communicate with each other to maintain skeletal homeostasis. Here, the authors show that MIRO1-mediated mitochondrial transfer from osteolineage to myeloid lineage cells regulates bone resorption by altering glutathione metabolism. [ABSTRACT FROM AUTHOR]

Published

2024

152. Germline-like TCR-α chains shared between autoreactive T cells in blood and pancreas.

Author

Linsley, Peter S., Nakayama, Maki, Balmas, Elisa, Chen, Janice, Barahmand-pour-Whitman, Fariba, Bansal, Shubham, Bottorff, Ty, Serti, Elisavet, Speake, Cate, Pugliese, Alberto, and Cerosaletti, Karen

Subjects

T cells, BLOOD cells, T cell receptors, PANCREATIC beta cells, DEAD, AMINO acid sequence, TYPE 1 diabetes, PANCREAS

Abstract

Human type 1 diabetes (T1D) is caused by autoimmune attack on the insulin-producing pancreatic beta cells by islet antigen-reactive T cells. How human islet antigen-reactive (IAR) CD4+ memory T cells from peripheral blood affect T1D progression in the pancreas is poorly understood. Here, we aim to determine if IAR T cells in blood could be detected in pancreas. We identify paired αβ (TRA/TRB) T cell receptors (TCRs) in IAR T cells from the blood of healthy, at-risk, new-onset, and established T1D donors, and measured sequence overlap with TCRs in pancreata from healthy, at risk and T1D organ donors. We report extensive TRA junction sharing between IAR T cells and pancreas-infiltrating T cells (PIT), with perfect-match or single-mismatch TRA junction amino acid sequences comprising ~29% total unique IAR TRA junctions (942/3,264). PIT-matched TRA junctions were largely public and enriched for TRAV41 usage, showing significant nucleotide sequence convergence, increased use of germline-encoded versus non-templated residues in epitope engagement, and a potential for cross-reactivity. Our findings thus link T cells with distinctive germline-like TRA chains in the peripheral blood with T cells in the pancreas. Most efforts to examine islet antigen-reactive T cells in type-1 diabetes have been limited to peripheral blood. In this study, the authors examine the T cell receptor (TCR) repertoire of insulin antigen-reactive T cells from peripheral blood from patients with type-1 diabetes as well as pancreata from deceased donors. [ABSTRACT FROM AUTHOR]

Published

2024

153. Blood cell indices and inflammation-related markers with kidney cancer risk: a large-population prospective analysis in UK Biobank.

Author

Qingliu He, Chengcheng Wei, Li Cao, Pu Zhang, Wei Zhuang, and Fangzhen Cai

Subjects

RENAL cancer, BLOOD cells, DISEASE risk factors, TUMOR markers, ERYTHROCYTES

Abstract

Background: Kidney cancer is a prevalent malignancy with an increasing incidence worldwide. Blood cell indices and inflammation-related markers have shown huge potential as biomarkers for predicting cancer incidences, but that is not clear in kidney cancer. Our study aims to investigate the correlations of blood cell indices and inflammation-related markers with kidney cancer risk. Methods: We performed a population-based cohort prospective analysis using data from the UK Biobank. A total of 466,994 participants, free of kidney cancer at baseline, were included in the analysis. The hazard ratios (HRs) and 95% confidence intervals (CIs) for kidney cancer risk were calculated using Cox proportional hazards regression models. Restricted cubic spline models were used to investigate nonlinear longitudinal associations. Stratified analyses were used to identify high-risk populations. The results were validated through sensitivity analyses. Results: During a mean follow-up of 12.4 years, 1,710 of 466,994 participants developed kidney cancer. The Cox regression models showed that 13 blood cell indices and four inflammation-related markers were associated with kidney cancer incidence. The restricted cubic spline models showed non-linear relationships with kidney cancer. Finally, combined with stratified and sensitivity analyses, we found that the mean corpuscular hemoglobin concentration (MCHC), red blood cell distribution width (RDW), platelet distribution width (PDW), systemic immune-inflammation index (SII), and product of platelet count and neutrophil count (PPN) were related to enhanced kidney cancer risk with stable results. Conclusion: Our findings identified that three blood cell indices (MCHC, RDW, and PDW) and two inflammation-related markers (SII and PPN) were independent risk factors for the incidence of kidney cancer. These indexes may serve as potential predictors for kidney cancer and aid in the development of targeted screening strategies for at-risk individuals. [ABSTRACT FROM AUTHOR]

Published

2024

154. Myeloid-derived suppressor cells in peripheral blood as predictive biomarkers in patients with solid tumors undergoing immune checkpoint therapy: systematic review and meta-analysis.

Author

Möller, Maximilian, Orth, Vanessa, Umansky, Viktor, Hetjens, Svetlana, Braun, Volker, Reißfelder, Christoph, Hardt, Julia, and Seyfried, Steffen

Subjects

MYELOID-derived suppressor cells, IMMUNE checkpoint proteins, IMMUNOTHERAPY, BLOOD cells, IMMUNE checkpoint inhibitors, PROGNOSIS

Abstract

Background: Immunotherapeutic approaches, including immune checkpoint inhibitor (ICI) therapy, are increasingly recognized for their potential. Despite notable successes, patient responses to these treatments vary significantly. The absence of reliable predictive and prognostic biomarkers hampers the ability to foresee outcomes. This meta-analysis aims to evaluate the predictive significance of circulating myeloid-derived suppressor cells (MDSC) in patients with solid tumors undergoing ICI therapy, focusing on progression-free survival (PFS) and overall survival (OS). Methods: A comprehensive literature search was performed across PubMed and EMBASE from January 2007 to November 2023, utilizing keywords related to MDSC and ICI. We extracted hazard ratios (HRs) and 95% confidence intervals (CIs) directly from the publications or calculated them based on the reported data. A hazard ratio greater than 1 indicated a beneficial effect of low MDSC levels. We assessed heterogeneity and effect size through subgroup analyses. Results: Our search yielded 4,023 articles, of which 17 studies involving 1,035 patients were included. The analysis revealed that patients with lower levels of circulating MDSC experienced significantly improved OS (HR=2.13 [95% CI 1.51-2.99]) and PFS (HR=1.87 [95% CI 1.29-2.72]) in response to ICI therapy. Notably, heterogeneity across these outcomes was primarily attributed to differences in polymorphonuclear MDSC (PMN-MDSC) subpopulations and varying cutoff methodologies used in the studies. The monocytic MDSC (M-MDSC) subpopulation emerged as a consistent and significant prognostic marker across various subgroup analyses, including ethnicity, tumor type, ICI target, sample size, and cutoff methodology. Conclusions: Our findings suggest that standardized assessment of MDSC, particularly M-MDSC, should be integral to ICI therapy strategies. These cells hold the promise of identifying patients at risk of poor response to ICI therapy, enabling tailored treatment approaches. Further research focusing on the standardization of markers and validation of cutoff methods is crucial for integrating MDSC into clinical practice. [ABSTRACT FROM AUTHOR]

Published

2024

155. Human γδ T cells in diverse tissues exhibit site-specific maturation dynamics across the life span.

Author

Gray, Joshua I., Caron, Daniel P., Wells, Steven B., Guyer, Rebecca, Szabo, Peter, Rainbow, Daniel, Ergen, Can, Rybkina, Ksenia, Bradley, Marissa C., Matsumoto, Rei, Pethe, Kalpana, Kubota, Masaru, Teichmann, Sarah, Jones, Joanne, Yosef, Nir, Atkinson, Mark, Brusko, Maigan, Brusko, Todd M., Connors, Thomas J., and Sims, Peter A.

Subjects

T cells, LIFE spans, LYMPHOID tissue, BLOOD cells, MUCOUS membranes

Abstract

During ontogeny, γδ T cells emerge from the thymus and directly seed peripheral tissues for in situ immunity. However, their functional role in humans has largely been defined from blood. Here, we analyzed the phenotype, transcriptome, function, and repertoire of human γδ T cells in blood and mucosal and lymphoid tissues from 176 donors across the life span, revealing distinct profiles in children compared with adults. In early life, clonally diverse Vδ1 subsets predominate across blood and tissues, comprising naïve and differentiated effector and tissue repair functions, whereas cytolytic Vδ2 subsets populate blood, spleen, and lungs. With age, Vδ1 and Vδ2 subsets exhibit clonal expansions and elevated cytolytic signatures, which are disseminated across sites. In adults, Vδ2 cells predominate in blood, whereas Vδ1 cells are enriched across tissues and express residency profiles. Thus, antigenic exposures over childhood drive the functional evolution and tissue compartmentalization of γδ T cells, leading to age-dependent roles in immunity. Editor's summary: Our understanding of the functional role of human γδ T cells in tissues is very limited and has been primarily informed by peripheral blood studies. Gray et al. used a multiomics strategy to characterize human γδ T cells in the blood and various mucosal and lymphoid tissues from 176 donors whose ages ranged from just a few days to over 80 years. In contrast to the highly differentiated and cytotoxic γδ T cell populations found in adults, γδ T cells during infancy and childhood are clonally diverse, are tissue specific, and exhibit features of adaptive lymphocytes. —Seth Thomas Scanlon [ABSTRACT FROM AUTHOR]

Published

2024

156. Harnessing Standing Sound Waves to Treat Intraocular Blood Cell Accumulation.

Author

Kenigsberg, Avraham, Shperling, Shany, Nagler-Avramovitz, Ornit, Peleg-Levy, Heli, Piperno, Silvia, Skaat, Alon, Leshno, Ari, Shpaisman, Hagay, and Kapelushnik, Noa

Subjects

STANDING waves, BLOOD cells, SOUND waves, AQUEOUS humor, INTRAOCULAR pressure, HEMORHEOLOGY, EYE movements

Abstract

Certain ocular conditions result from the non-physiological presence of intraocular particles, leading to visual impairment and potential long-term damage. This happens when the normally clear aqueous humor becomes less transparent, thus blocking the visual axis and by intraocular pressure elevation due to blockage of the trabecular meshwork, as seen in secondary open-angle glaucoma (SOAG). Some of these "particle-related pathologies" acquire ocular conditions like pigment dispersion syndrome, pseodoexfoliation and uveitis. Others are trauma-related, such as blood cell accumulation in hyphema. While medical and surgical treatments exist for SOAG, there is a notable absence of effective preventive measures. Consequently, the prevailing clinical approach predominantly adopts a "wait and see" strategy, wherein the focus lies on managing secondary complications and offers no treatment options for particulate matter disposal. We developed a new technique utilizing standing acoustic waves to trap and direct intraocular particles. By employing acoustic trapping at nodal regions and controlled movement of the acoustic transducer, we successfully directed these particles to specific locations within the angle. Here, we demonstrate control and movement of polystyrene (PS) particles to specific locations within an in vitro eye model, as well as blood cells in porcine eyes (ex vivo). The removal of particles from certain areas can facilitate the outflow of aqueous humor (AH) and help maintain optimal intraocular pressure (IOP) levels, resulting in a non-invasive tool for preventing secondary glaucoma. Furthermore, by controlling the location of trapped particles we can hasten the clearance of the AH and improve visual acuity and quality more effectively. This study represents a significant step towards the practical application of our technique in clinical use. [ABSTRACT FROM AUTHOR]

Published

2024

157. Cellular and Genomic Instability Induced by the Herbicide Glufosinate-Ammonium: An In Vitro and In Vivo Approach.

Author

Santovito, Alfredo, Lambertini, Mattia, Schleicherová, Dáša, Mirone, Enrico, and Nota, Alessandro

Subjects

GERM cells, BLOOD cells, NUCLEOLUS, HERBICIDES, CELL proliferation, LYMPHOCYTES

Abstract

Glufosinate-ammonium (GLA), an organophosphate herbicide, is released at high concentrations in the environment, leading to concerns over its potential genotoxic effects. However, few articles are available in the literature reporting the possible cellular and nuclear effects of this compound. We assessed, by in vitro and in vivo micronucleus assays, the genotoxicity of GLA on cultured human lymphocytes and Lymnaea stagnalis hemocytes at six concentrations: 0.010 (the established acceptable daily intake value), 0.020, 0.050, 0.100, 0.200, and 0.500 µg/mL. In human lymphocytes, our results reveal a significant and concentration-dependent increase in micronuclei frequency at concentrations from 0.100 to 0.500 μg/mL, while in L. stagnalis hemocytes, significant differences were found at 0.200 and 0.500 μg/mL. A significant reduction in the proliferation index was observed at all tested concentrations, with the only exception of 0.010 μg/mL, indicating that the exposure to GLA could lead to increased cytotoxic effects. In L. stagnalis, a significant reduction in laid eggs and body growth was also observed at all concentrations. In conclusion, we provided evidence of the genomic and cellular damage induced by GLA on both cultured human lymphocytes and a model organism's hemocytes; in addition, we also demonstrated its effects on cell proliferation and reproductive health in L. stagnalis. [ABSTRACT FROM AUTHOR]

Published

2024

158. Programmed cell death-1 is involved with peripheral blood immune cell profiles in patients with hepatitis C virus antiviral therapy.

Author

Miura, Miyabi, Nishino, Michiko, Kawaguchi, Kazunori, Li, Shihui, Shimakami, Tetsuro, Tamai, Toshikatsu, Nakagawa, Hidetoshi, Terashima, Takeshi, Iida, Noriho, Takatori, Hajime, Arai, Kuniaki, Sakai, Yoshio, Yamashita, Tatsuya, Honda, Masao, Kaneko, Shuichi, Mizukoshi, Eishiro, and Yamashita, Taro

Subjects

HEPATITIS C virus, T helper cells, REGULATORY T cells, T cells, BLOOD cells, CHRONIC active hepatitis, CELL analysis

Abstract

Mutations in the non-structural protein regions of hepatitis C virus (HCV) are a cause of a non-sustained virological response (SVR) to treatment with direct-acting antivirals (DAAs) for chronic hepatitis; however, there are non-SVR cases without these mutations. In this study, we examined immune cell profiles in peripheral blood before and after ombitasvir/paritaprevir/ritonavir treatment and screened for genes that could be used to predict the therapeutic effects of DAAs. Fluorescence-activated cell sorting analysis indicated that the median frequencies of programmed cell death-1-positive (PD-1+) effector regulatory T cells (eTregs), PD-1+CD8+ T cells, and PD-1+Helper T cells were decreased significantly in SVR cases, but without significant changes in non-SVR cases. The frequency of PD-1+ naïve Tregs was significantly higher in the SVR group than in the non-SVR group before and after treatment. Similar results were found in patients treated with other DAAs (e.g., daclatasvir plus asunaprevir) and supported an immune response after HCV therapy. RNA-sequencing analysis indicated a significant increase in the expression of genes associated with the immune response in the SVR group, while genes related to intracellular and extracellular signal transduction were highly expressed in the non-SVR group. Therefore, we searched for genes associated with PD-1+ eTregs and CD8+ T cells that were significantly different between the SVR and non-SVR groups and found that T-box transcription factor 21 was associated with the non-SVR state. These results indicate that PD-1-related signaling pathways are associated with a non-SVR mechanism after DAAs treatment separate from mutation-related drug resistance. [ABSTRACT FROM AUTHOR]

Published

2024

159. Control of acute myeloid leukemia and generation of immune memory in vivo using AMV564, a bivalent bispecific CD33 x CD3 T cell engager.

Author

Eissenberg, Linda G., Ritchey, Julie K., Rettig, Michael P., Patel, Dilan A., Vij, Kiran, Gao, Feng, Smith, Victoria, Han, Tae H., and DiPersio, John F.

Subjects

T cells, ACUTE myeloid leukemia, IMMUNOLOGIC memory, TUMOR antigens, CD3 antigen, BLOOD cells

Abstract

Off-the-shelf immunotherapeutics that suppress tumor growth and provide durable protection against relapse could enhance cancer treatment. We report preclinical studies on a CD33 x CD3 bivalent bispecific diabody, AMV564, that not only suppresses tumor growth, but also facilitates memory responses in a mouse model of acute myelogenous leukemia (AML). Mechanistically, a single 5-day treatment with AMV564 seems to reduce tumor burden by redirection of T cells, providing a time window for allogeneic or other T cells that innately recognize tumor antigens to become activated and proliferate. When the concentration of bispecific becomes negligible, the effector: target ratio has also shifted, and these activated T cells mediate long-term tumor control. To test the efficacy of AMV564 in vivo, we generated a CD33+ MOLM13CG bioluminescent human cell line and optimized conditions needed to control these cells for 62 days in vivo in NSG mice. Of note, not only did MOLM13CG become undetectable by bioluminescence imaging in response to infusion of human T cells plus AMV564, but also NSG mice that had cleared the tumor also resisted rechallenge with MOLM13CG in spite of no additional AMV564 treatment. In these mice, we identified effector and effector memory human CD4+ and CD8+ T cells in the peripheral blood immediately prior to rechallenge that expanded significantly during the subsequent 18 days. In addition to the anti-tumor effects of AMV564 on the clearance of MOLM13CG cells in vivo, similar effects were seen when primary CD33+ human AML cells were engrafted in NSG mice even when the human T cells made up only 2% of the peripheral blood cells and AML cells made up 98%. These studies suggest that AMV564 is a novel and effective bispecific diabody for the targeting of CD33+ AML that may provide long-term survival advantages in the clinic. [ABSTRACT FROM AUTHOR]

Published

2024

160. The Effect of Physical Activity and Repeated Whole-Body Cryotherapy on the Expression of Modulators of the Inflammatory Response in Mononuclear Blood Cells among Young Men.

Author

Kusmierczyk, Justyna, Wiecek, Magdalena, Wojciak, Gabriela, Mardyła, Mateusz, Kreiner, Grzegorz, Szygula, Zbigniew, and Szymura, Jadwiga

Subjects

BLOOD cells, PHYSICAL activity, INFLAMMATION, GENE expression, COLD therapy

Abstract

Background: Series of whole-body cryotherapy (WBC) among healthy and physically active individuals can potentially reduce inflammatory response, although exact mechanisms remain unclear. Methods: The impact of whole-body cryotherapy on inflammation modulators among 28 young males, categorized as non-training (NTR, N = 10), non-training with WBC (NTR-WBC, N = 10), and training with WBC (TR-WBC, N = 8), is investigated in this study. Over a period of eight weeks, NTR-WBC and TR-WBC subjects underwent 24 WBC treatments (−130 °C for 3 min, three times a week), examining changes in mRNA expressions of IL-1A, IL-6, IL-10, IFN-G, SIRT1, SIRT3, SOD2, GSS, and ICAM-1. Results: The received data indicate an acute inflammatory response to initial WBC (increased IL-1A, IL-6, and SIRT), with a greater effect in NTR-WBC. Subsequent sessions showed enhanced expressions of antioxidative genes in both WBC groups, particularly non-trained, suggesting improved oxidative stress adaptation. A notable decrease in ICAM-1 mRNA post-24 WBC treatments in NTR-WBC signifies a potential systemic anti-inflammatory effect. Conclusions: The findings of the study suggest that the combination of regular physical activity with WBC administered three times per week can potentially modulate inflammatory and antioxidant responses. This modulation is evidenced by changes in the expression of genes related to these processes. [ABSTRACT FROM AUTHOR]

Published

2024

161. A Prospective Study Investigating Immune Checkpoint Molecule and CD39 Expression on Peripheral Blood Cells for the Prognostication of COVID-19 Severity and Mortality.

Author

Gambichler, Thilo, Rüth, Jonas, Goesmann, Silke, Höxtermann, Stefan, Skrygan, Marina, Susok, Laura, Becker, Jürgen C., Overheu, Oliver, Schmidt, Wolfgang, and Reinacher-Schick, Anke

Subjects

IMMUNE checkpoint proteins, BLOOD cells, PURINERGIC receptors, MONONUCLEAR leukocytes, COVID-19, LONGITUDINAL method

Abstract

In patients with COVID-19, broad panels of immune checkpoint molecules (ICPMs) and the purinergic signaling have not been studied in parallel. We aimed to perform in-depth immunophenotyping of major cell subsets present in human peripheral blood of COVID-19 patients and controls using PD1, TIM3, LAG3, TIGIT, and CD200R, as well as CD39, as markers for the purinergic signaling pathway. We studied 76 COVID-19 patients and 12 healthy controls using peripheral blood mononuclear cells on flow cytometry. Univariable and multivariable statistics were performed. All ICPMs studied were significantly overexpressed on different cell subsets of COVID-19 patients when compared with healthy controls. Elevated lactate dehydrogenase; C-reactive protein; age; and high expression of CD45+, CD39+CD45+, TIM3+CD39+CD4+CD45+, and TIM3+CD39+CD8+CD3+CD4+ cells were significantly associated with severe COVID-19. On multivariable analysis, however, only high expression of CD39+CD45+ (OR 51.4, 95% CI 1.5 to 1763) and TIM3+CD39+CD4+CD3+CD45+ (OR 22.6, 95% CI 1.8 to 277) cells was an independent predictor for severe COVID-19. In conclusion, numerous ICPMs are overexpressed in COVID-19 patients when compared with healthy controls, suggesting a pathophysiological role of these molecules in SARS-CoV-2 infection. However, only TIM3 in co-expression with CD39 remained as a significant independent prognostic ICPM on multivariable analysis. The flow cytometric evaluation of TIM3+CD39+CD4+CD3+CD45+, as well as CD39+CD45+, is a powerful tool for the prognostication of COVID-19 patients on hospital admission. [ABSTRACT FROM AUTHOR]

Published

2024

162. Microvesicles derived from dermal myofibroblasts modify the integrity of the blood and lymphatic barriers using distinct endocytosis pathways.

Author

Arif, Syrine, Richer, Megan, Larochelle, Sébastien, and Moulin, Véronique J.

Subjects

EXTRACELLULAR vesicles, MYOFIBROBLASTS, ENDOTHELIAL cells, ENDOCYTOSIS, BLOOD cells, CLAUDINS, CELL communication

Abstract

Microvesicles (MVs) are a subtype of extracellular vesicles that can transfer biological information from their producer cells to target cells. This communication can in turn affect both normal and pathological processes. Mounting evidence has revealed that dermal wound myofibroblasts (Wmyo) produce MVs, which can transfer biomolecules impacting receptor cells such as human dermal microvascular endothelial cells (HDMECs). While the effects of MVs on HDMECs are generally well described in the literature, little is known about the transport of MVs across the HDMEC barrier, and their potential effect on the barrier integrity remains unknown. Here, we investigated these roles of Wmyo‐derived MVs on two sub‐populations of HDMECs, blood endothelial cells (BECs) and lymphatic endothelial cells (LECs). Using an in vitro model to mimic the endothelial barrier, we showed that MVs crossed the LEC barrier but not the BEC barrier. In addition, we demonstrated that MVs were able to influence the cell‐cell junctions of HDMECs. Specifically, we observed that after internalization via the predominantly caveolin‐dependent pathway, MVs induced the opening of junctions in BECs. Conversely, in LECs, MVs mainly use the macropinocytosis pathway and induce closure of these junctions. Moreover, proteins in the MV membrane were responsible for this effect, but not specifically those belonging to the VEGF family. Finally, we found that once the LEC barrier permeability was reduced by MV stimuli, MVs ceased to cross the barrier. Conversely, when the BEC barrier was rendered permeable following stimulation with MVs, they were subsequently able to cross the barrier via the paracellular pathway. Taken together, these results suggest that the study of Wmyo‐derived MVs offers valuable insights into their interaction with the HDMEC barrier in the context of wound healing. They highlight the potential significance of these MVs in the overall process. [ABSTRACT FROM AUTHOR]

Published

2024

163. Decreased progenitor TCF1 + T-cells correlate with COVID-19 disease severity.

Author

Tu, Thai Hien, Grunbaum, Ami, Santinon, François, Kazanova, Alexandra, Rozza, Nicholas, Kremer, Richard, Mihalcioiu, Catalin, and Rudd, Christopher E.

Subjects

COVID-19, VITAMIN D deficiency, VITAMIN D, BLOOD cells

Abstract

COVID-19, caused by SARS-CoV-2, can lead to a severe inflammatory disease characterized by significant lymphopenia. However, the underlying cause for the depletion of T-cells in COVID-19 patients remains incompletely understood. In this study, we assessed the presence of different T-cell subsets in the progression of COVID-19 from mild to severe disease, with a focus on TCF1 expressing progenitor T-cells that are needed to replenish peripheral T-cells during infection. Our results showed a preferential decline in TCF1+ progenitor CD4 and CD8+ T-cells with disease severity. This decline was seen in various TCF1+ subsets including naive, memory and effector-memory cells, and surprisingly, was accompanied by a loss in cell division as seen by a marked decline in Ki67 expression. In addition, TCF1+ T-cells showed a reduction in pro-survival regulator, BcL2, and the appearance of a new population of TCF1 negative caspase-3 expressing cells in peripheral blood from patients with severe disease. The decline in TCF1+ T-cells was also seen in a subgroup of severe patients with vitamin D deficiency. Lastly, we found that sera from severe patients inhibited TCF1 transcription ex vivo which was attenuated by a blocking antibody against the cytokine, interleukin-12 (IL12). Collectively, our findings underscore the potential significance of TCF1+ progenitor T-cells in accounting for the loss of immunity in severe COVID-19 and outline an array of markers that could be used to identify disease progression. This study shows that severity of disease in COVID-19 patients is characterized by the preferential loss of TCF1+ progenitor T-cells needed to self-renew and replenish the immune system. [ABSTRACT FROM AUTHOR]

Published

2024

164. FOXP3 full length splice variant is associated with kidney allograft tolerance.

Author

Saleh, Qais W., Mohammadnejad, Afsaneh, and Tepel, Martin

Subjects

HOMOGRAFTS, KIDNEY transplantation, REGULATORY T cells, GLOMERULAR filtration rate, POLYMERASE chain reaction, EPIDERMAL growth factor receptors, BLOOD cells

Abstract

Background: Progressive decline of allograft function leads to premature graft loss. Forkhead box P3 (FOXP3), a characteristic gene of T-regulatory cells, is known to be essential for auto-antigen tolerance. We assessed the hypothesis that low FOXP3 mRNA splice variant levels in peripheral blood cells early after transplantation are associated with progressive allograft injury. Methods: Blood samples were prospectively collected from 333 incident kidney transplant recipients on the first and 29th postoperative day. We used quantitative polymerase chain reaction to determine transcripts of 3 isotypes of FOXP3 splice variants, including pre-mature FOXP3 and full length FOXP3 (FOXP3fl). We investigated the association between FOXP3 splice variant levels and the declines in estimated glomerular filtration rate (eGFR) of more than 5ml/min/1.73m2 within the first-year post-transplant using logistic regression. Results: We observed lower FOXP3fl levels in recipients with declining eGFR (N = 132) than in recipients with stable eGFR (N = 201), (logarithmic value -4.13 [IQR -4.50 to -3.84] vs -4.00 [4.32 to -3.74], p=0.02). In ad hoc analysis pre-transplant FOXP3fl levels were similar in both groups. The association between FOXP3fl and declining eGFR was confirmed by multivariable analysis adjusted for potential confounding factors (Odds Ratio 0.51, 95% confidence interval 0.28 to 0.91: p=0.02). When stratifying FOXP3fl levels into quartiles, recipients with lower day1 FOXP3fl had the highest rate of declining eGFR (p=0.04). Conclusion: Low FOXP3fl splice variant levels at the first postoperative day in kidney transplant recipients were associated with severe decline of eGFR, a wellknown surrogate for hard endpoints. [ABSTRACT FROM AUTHOR]

Published

2024

165. Recombinant mycobacterial DNA-binding protein 1 with post-translational modifications boosts IFN-gamma production from BCG-vaccinated individuals' blood cells in combination with CpG-DNA.

Author

Ozeki, Yuriko, Yokoyama, Akira, Nishiyama, Akihito, Yoshida, Yutaka, Ohara, Yukiko, Mashima, Tsukasa, Tomiyama, Chikako, Shaban, Amina K., Takeishi, Atsuki, Osada-Oka, Mayuko, Yamaguchi, Takehiro, Tateishi, Yoshitaka, Maeyama, Jun-ichi, Hakamata, Mariko, Moro, Hiroshi, Kikuchi, Toshiaki, Hayashi, Daisuke, Suzuki, Fumiko, Yamamoto, Toshiko, and Iho, Sumiko

Subjects

POST-translational modification, DNA-binding proteins, TYPE I interferons, BLOOD cells, TUBERCULOSIS vaccines, MYCOBACTERIUM tuberculosis, INTERFERON receptors

Abstract

Tuberculosis remains a large health threat, despite the availability of the tuberculosis vaccine, BCG. As BCG efficacy gradually decreases from adolescence, BCG-Prime and antigen-booster may be an efficient strategy to confer vaccine efficacy. Mycobacterial DNA-binding protein 1 (MDP1, namely Rv2986c, hupB or HU) is a major Mycobacterium tuberculosis protein that induces vaccine-efficacy by co-administration with CpG DNA. To produce MDP1 for booster-vaccine use, we have created recombinant MDP1 produced in both Escherichia coli (eMDP1) and Mycolicibacterium smegmatis (mMDP1), an avirulent rapid-growing mycobacteria. We tested their immunogenicity by checking interferon (IFN)-gamma production by stimulated peripheral blood cells derived from BCG-vaccinated individuals. Similar to native M. tuberculosis MDP1, we observed that most lysin resides in the C-terminal half of mMDP1 are highly methylated. In contrast, eMDP1 had less post-translational modifications and IFN-gamma stimulation. mMDP1 stimulated the highest amount of IFN-gamma production among the examined native M. tuberculosis proteins including immunodominant MPT32 and Antigen 85 complex. MDP1-mediated IFN-gamma production was more strongly enhanced when combined with a new type of CpG DNA G9.1 than any other tested CpG DNAs. Taken together, these results suggest that the combination of mMDP1 and G9.1 possess high potential use for human booster vaccine against tuberculosis. [ABSTRACT FROM AUTHOR]

Published

2024

166. CITEViz: interactively classify cell populations in CITE-Seq via a flow cytometry-like gating workflow using R-Shiny.

Author

Kong, Garth L., Nguyen, Thai T., Rosales, Wesley K., Panikar, Anjali D., Cheney, John H. W., Lusardi, Theresa A., Yashar, William M., Curtiss, Brittany M., Carratt, Sarah A., Braun, Theodore P., and Maxson, Julia E.

Subjects

CELL populations, MONONUCLEAR leukocytes, B cells, KILLER cells, WORKFLOW, BLOOD cells, MONOCYTES

Abstract

Background: The rapid advancement of new genomic sequencing technology has enabled the development of multi-omic single-cell sequencing assays. These assays profile multiple modalities in the same cell and can often yield new insights not revealed with a single modality. For example, Cellular Indexing of Transcriptomes and Epitopes by Sequencing (CITE-Seq) simultaneously profiles the RNA transcriptome and the surface protein expression. The surface protein markers in CITE-Seq can be used to identify cell populations similar to the iterative filtration process in flow cytometry, also called "gating", and is an essential step for downstream analyses and data interpretation. While several packages allow users to interactively gate cells, they often do not process multi-omic sequencing datasets and may require writing redundant code to specify gate boundaries. To streamline the gating process, we developed CITEViz which allows users to interactively gate cells in Seurat-processed CITE-Seq data. CITEViz can also visualize basic quality control (QC) metrics allowing for a rapid and holistic evaluation of CITE-Seq data. Results: We applied CITEViz to a peripheral blood mononuclear cell CITE-Seq dataset and gated for several major blood cell populations (CD14 monocytes, CD4 T cells, CD8 T cells, NK cells, B cells, and platelets) using canonical surface protein markers. The visualization features of CITEViz were used to investigate cellular heterogeneity in CD14 and CD16-expressing monocytes and to detect differential numbers of detected antibodies per patient donor. These results highlight the utility of CITEViz to enable the robust classification of single cell populations. Conclusions: CITEViz is an R-Shiny app that standardizes the gating workflow in CITE-Seq data for efficient classification of cell populations. Its secondary function is to generate basic feature plots and QC figures specific to multi-omic data. The user interface and internal workflow of CITEViz uniquely work together to produce an organized workflow and sensible data structures for easy data retrieval. This package leverages the strengths of biologists and computational scientists to assess and analyze multi-omic single-cell datasets. In conclusion, CITEViz streamlines the flow cytometry gating workflow in CITE-Seq data to help facilitate novel hypothesis generation. [ABSTRACT FROM AUTHOR]

Published

2024

167. Tissue-specific nonheritable influences drive endometrial immune system variation.

Author

Bister, Jonna, Filipovic, Iva, Sun, Dan, Crona-Guterstam, Ylva, Cornillet, Martin, Ponzetta, Andrea, Michaëlsson, Jakob, Gidlöf, Sebastian, Ivarsson, Martin A., Strunz, Benedikt, and Björkström, Niklas K.

Subjects

IMMUNE system, MONOZYGOTIC twins, CYTOMEGALOVIRUS diseases, BLOOD cells, TWIN studies

Abstract

Although human twin studies have revealed the combined contribution of heritable and environmental factors in shaping immune system variability in blood, the contribution of these factors to immune system variability in tissues remains unexplored. The human uterus undergoes constant regeneration and is exposed to distinct environmental factors. To assess uterine immune system variation, we performed a system-level analysis of endometrial and peripheral blood immune cells in monozygotic twins. Although most immune cell phenotypes in peripheral blood showed high genetic heritability, more variation was found in endometrial immune cells, indicating a stronger influence by environmental factors. Cytomegalovirus infection was identified to influence peripheral blood immune cell variability but had limited effect on endometrial immune cells. Instead, hormonal contraception shaped the local endometrial milieu and immune cell composition with minor influence on the systemic immune system. These results highlight that the magnitude of human immune system variation and factors influencing it can be tissue specific. Editor's summary: Baseline differences in the immune system between individuals are driven by both heritable and nonheritable, environmental factors. By analyzing endometrial and peripheral blood immune cells collected from monozygotic twins, Bister et al. measured the tissue-specific contributions of nonheritable effects on immune system variation. Although peripheral blood immune cells were largely shaped by genetics, environmental factors including hormonal contraception contributed more strongly to the variation in endometrial immune cells and soluble proteome. Together, these findings demonstrate that the human immune system can be highly variable and driven by nonheritable factors in a tissue-specific manner. —Claire Olingy [ABSTRACT FROM AUTHOR]

Published

2024

168. Correction to: Isolation and molecular characterization of hemocyte sub-populations in kuruma shrimp Marsupenaeus japonicus.

Author

Koiwai, Keiichiro, Kondo, Hidehiro, and Hirono, Ikuo

Subjects

PENAEUS japonicus, WHEAT germ, BLOOD cells

Abstract

The following corrections have been made to the paper: In section "Lectin staining of hemocytes by LEL and WGA", the sentence "After washing twice, hemocytes were analyzed by flow cytometry and observed under a fluorescence microscope" was changed to read: "After washing twice, stained hemocytes were analyzed by flow cytometry and observed under a fluorescence microscope. Dot plot analysis of WGADim hemocytes (c), WGAStrong hemocytes (d), LELDim hemocytes (e), LELStrong hemocytes (f) and unstained hemocytes (g). x-axis Forward-scatter filter (FSC), y-axis side-scatter filter (SSC) In the Figs. Unstained and unseparated hemocytes (total hemocytes) were also analyzed by flow cytometry as negative control". [Extracted from the article]

Published

2022

169. Nicolaus Copernicus University Researcher Provides New Insights into Anaphylaxis (Mast Cells and Basophils in IgE-Independent Anaphylaxis).

Subjects

MAST cells, BASOPHILS, ANAPHYLAXIS, ALLERGIES, MAST cell disease

Abstract

Keywords: Anaphylaxis; Basophils; Blood Cells; Granulocytes; Health and Medicine; Hemic and Immune Systems; Immediate Hypersensitivity; Immune System Diseases and Conditions; Immunology; Mast Cells; Risk and Prevention EN Anaphylaxis Basophils Blood Cells Granulocytes Health and Medicine Hemic and Immune Systems Immediate Hypersensitivity Immune System Diseases and Conditions Immunology Mast Cells Risk and Prevention 4396 4396 1 09/04/23 20230908 NES 230908 2023 SEP 8 (NewsRx) -- By a News Reporter-Staff News Editor at Health & Medicine Week -- Current study results on anaphylaxis have been published. This paper reviews IgE-independent anaphylaxis, with special emphasis on mast cells, basophils, anaphylactic mediators, risk factors, triggers, and management.". [Extracted from the article]

Published

2023

170. New Findings on Biotechnology Described by Investigators at UConn Health (Real-time Measurement of the Mitochondrial Bioenergetic Profile of Neutrophils).

Subjects

NEUTROPHILS, BIOTECHNOLOGY, METABOLIC flux analysis, MITOCHONDRIA, MEDICAL sciences

Abstract

This paper describes a step-by-step protocol and prerequirements to measure oxygen consumption rate (OCR) as an indicator of mitochondrial respiration on mouse bone marrow-derived neutrophils, human blood -derived neutrophils, and the neutrophil-like HL60 cell line, using metabolic flux analysis on a metabolic extracellular flux analyzer." Keywords: Farmington; State:Connecticut; United States; North and Central America; Bioenergetics; Bioengineering; Biotechnology; Blood Cells; Energy; Granulocytes; Health and Medicine; Hemic and Immune Systems; Immunology; Neutrophils; Oil and Gas Research; Phagocytes EN Farmington State:Connecticut United States North and Central America Bioenergetics Bioengineering Biotechnology Blood Cells Energy Granulocytes Health and Medicine Hemic and Immune Systems Immunology Neutrophils Oil and Gas Research Phagocytes 3401 3401 1 08/21/23 20230825 NES 230825 2023 AUG 25 (NewsRx) -- By a News Reporter-Staff News Editor at Health & Medicine Week -- Current study results on Biotechnology have been published. [Extracted from the article]

Published

2023

171. Institute of Ecology and Genetics of Microorganisms Researchers Describe Advances in Biomedicine [Markers of Th1 polarized Th17 cells (literature review)].

Subjects

T helper cells, MICROBIAL genetics, LITERATURE reviews, MICROBIAL ecology, MONONUCLEAR leukocytes

Abstract

Keywords: Biomedicine; Biotechnology; Blood Cells; Health and Medicine; Hemic and Immune Systems; Immunology; Lymphocytes; Mononuclear Leukocytes EN Biomedicine Biotechnology Blood Cells Health and Medicine Hemic and Immune Systems Immunology Lymphocytes Mononuclear Leukocytes 599 599 1 07/31/23 20230731 NES 230731 2023 AUG 4 (NewsRx) -- By a News Reporter-Staff News Editor at Genomics & Genetics Weekly -- New research on biomedicine is the subject of a new report. The paper discusses the reasons for the increased plasticity of Th17 cells in comparison with the main T helper populations (Th1 and Th2) and considers in detail the mechanisms of formation of IFNg producing Th17, taking into account not only the redifferentiation of mature Th17, but also possible alternative pathways, in particular, Th1 cell redifferentiation or naive CD4+T lymphocytes direct differentiation into cells with an intermediate Th1/Th17 phenotype. [Extracted from the article]

Published

2023

172. Associations of Cadmium Exposure with Peripheral Blood Cell Subtype Counts and Indices in Cadmium-Poisoned Mice

Author

Dong, Aiguo, He, Hui, Jing, Xuejie, Zhang, Tianmiao, Ma, Yingying, Wang, Xinling, Dong, Huidong, Liu, Wei, Fan, Kaifang, and Huo, Junfeng

Published

2024

173. Hematological and genotoxic biomarkers in a natural population of freshwater turtles Trachemys dorbigni (Duméril & Bibron, 1835) (Testudines: Emydidae) living in an urban area in Southern Brazil

Author

da Silva, Danielle Tavares, Guedes, Thays de Andrade, França, Raqueli Teresinha, Martins, Camila de Martinez Gaspar, and Loebmann, Daniel

Published

2024

174. Optimization of Formaldehyde Fixative Concentration for Individual Blood Cells to Develop a Stabilized Blood Control for Automated Hematology Analyzers

Author

Anilkumar, V., Priyanka, A., Ranjith, S., Safeena, A. S., Nair, Renjith P., and Bhatt, Anugya

Published

2024

175. Lensless imaging-based discrimination between tumour cells and blood cells towards circulating tumour cell cultivation.

Author

Maeda, Yoshiaki, Yoshino, Tomoko, Kogiso, Atsushi, Negishi, Ryo, Takabayashi, Tomohiro, Tago, Hikaru, Lim, Tae-Kyu, Harada, Manabu, Matsunaga, Tadashi, and Tanaka, Tsuyoshi

Subjects

BLOOD cells, FISHER discriminant analysis, ERYTHROCYTES, IMAGING systems, CELL division, BLOOD testing

Abstract

Circulating tumour cells (CTCs) are recognized as important markers for cancer research. Nonetheless, the extreme rarity of CTCs in blood samples limits their availability for multiple characterization. The cultivation of CTCs is still technically challenging due to the lack of information of CTC proliferation, and it is difficult for conventional microscopy to monitor CTC cultivation owing to low throughput. In addition, for precise monitoring, CTCs need to be distinguished from the blood cells which co-exist with CTCs. Lensless imaging is an emerging technique to visualize micro-objects over a wide field of view, and has been applied for various cytometry analyses including blood tests. However, discrimination between tumour cells and blood cells was not well studied. In this study, we evaluated the potential of the lensless imaging system as a tool for monitoring CTC cultivation. Cell division of model tumour cells was examined using the lensless imaging system composed of a simple setup. Subsequently, we confirmed that tumour cells, JM cells (model lymphocytes), and erythrocytes exhibited cell line-specific patterns on the lensless images. After several discriminative parameters were extracted, discrimination between the tumour cells and other blood cells was demonstrated based on linear discriminant analysis. We also combined the highly efficient CTC recovery device, termed microcavity array, with the lensless-imaging to demonstrate recovery, monitoring and discrimination of the tumour cells spiked into whole blood samples. This study indicates that lensless imaging can be a powerful tool to investigate CTC proliferation and cultivation. [ABSTRACT FROM AUTHOR]

Published

2021

176. A MATLAB model for diagnosing sickle cells and other blood abnormalities using image processing.

Author

Al-Momin, Mohammed and Almomin, Ammar

Subjects

IMAGE processing, BLOOD cells, LEUCOCYTES, DIAGNOSIS, ERYTHROCYTES, BLOOD cell count, FETAL hemoglobin

Abstract

The conventional method for detecting blood abnormality is time consuming and lacks the high level of accuracy. In this paper a MATLAB based solution has been suggested to tackle the problem of time consumption and accuracy. Three types of blood abnormality have been covered here, namely, anemia which is characterized by low count of red blood cells (RBCs), Leukemia which is depicted by increasing the number of white blood cells (WBCs), and sickle cell blood disorder which is caused by a deformation in the shape of red cells. The algorithm has been tested on different images of blood smears and noticed to give an acceptable level of accuracy. Image processing techniques has been used here to detect the different types of blood constituents. Unlike many other researches, this research includes the blood sickling disorder which is epidemic in certain regions of the world, and offers a more accuracy than other algorithms through the use of detaching overlapped cells strategy. [ABSTRACT FROM AUTHOR]

Published

2021

177. Robust three-dimensional nanotube-in-micropillar array electrodes to facilitate size independent electroporation in blood cell therapy.

Author

Liu, Xuan, Chang, An-Yi, Ma, Yifan, Hua, Liping, Yang, Zhaogang, and Wang, Shengnian

Subjects

BLOOD cells, CELLULAR therapy, MEMBRANE potential, FLEXIBLE electronics, CONDUCTING polymers, ELECTROPORATION

Abstract

Blood is an attractive carrier for plasmid and RNA-based medicine in cell therapy. Electroporation serves as a favorable delivery tool for simple operation, quick internalization, minimum cell culture involvement, and low contamination risk. However, the delivery outcome of electroporation heavily depends on the treated cells such as their type, size, and orientation to the electric field, not ideal for highly heterogeneous blood samples. Herein, a new electroporation system was developed towards effective transfection to cells in blood regardless of their large diversity. By coupling replica molding and infiltration-coating processes, we successfully configured a three-dimensional electrode comprised of a polymer micropillar array on which carbon nanotubes (CNTs) are partially embedded. During electroporation, cells sag between micropillars and deform to form a conformal contact with their top and side surfaces. The implanted CNTs not only provide a robust conductive coating for polymer micropattern but also have their protruded ends face the cell membrane vertically everywhere with maximum transmembrane potential. Regardless of their largely varied sizes and random dispersion, both individual blood cell type and whole blood samples were effectively transfected with plasmid DNA (85% after 24 h and 95% after 72 h, or 2.5–3.0 folds enhancement). High-dose RNA probes were also introduced, which regulate better the expression levels of exogenous and endogenous genes in blood cells. Besides its promising performance on non-viral delivery routes to cell-related studies and therapy, the involved new fabrication method also provides a convenient and effective way to construct flexible electronics with stable micro/nano features on the surface. [ABSTRACT FROM AUTHOR]

Published

2021

178. Comprehensive Medical Analysis of Clinical Diseases and Syndromes Based on Rheumatoid Factor Interfering Immune Blood Cell Damage.

Author

Zhu, Hui

Subjects

BLOOD cells, RHEUMATOID factor, RHEUMATOID arthritis, AGE differences, SYNDROMES, STATISTICAL correlation

Abstract

Rheumatoid arthritis bothers people. According to statistics, the prevalence of rheumatoid arthritis represents about 3% of the world's population. Rheumatoid factors can interfere with immune blood cells, which is very harmful to human health. In order to solve the damage of rheumatoid factor to health and study its influence on immune blood cells, this paper constructs a case template through case investigation of rheumatoid arthritis patients and creates damage assessment matrix by using comprehensive quantitative and qualitative analysis. The horizontal coupling degree between rheumatoid factor and interference of blood cell system is investigated, and the relationship between them is studied. The experimental results show that there is a correlation between rheumatoid factor and immune blood cells, the correlation coefficient is 0.87, the presence of rheumatoid factor in blood cells, and the cell system damage rate is about 30% higher than that without rheumatoid factor; the study found that there is a great difference in the age of rheumatoid factor in the population, and the age of patients is generally above 45 years old. This shows that rheumatoid factor can cause great damage to immune blood cell system and affect people's health level. [ABSTRACT FROM AUTHOR]

Published

2021

179. Inertial focusing of circulating tumor cells in whole blood at high flow rates using the microfluidic CTCKey™ device for CTC enrichment.

Author

Smith, Kaylee Judith, Jana, Jessica Antoinette, Kaehr, Anna, Purcell, Emma, Opdycke, Tyler, Paoletti, Costanza, Cooling, Laura, Thamm, Douglas H., Hayes, Daniel F., and Nagrath, Sunitha

Subjects

BLOOD flow, MICROFLUIDIC devices, BLOOD volume, BLOOD cells, ERYTHROCYTES, HEMODILUTION

Abstract

Circulating tumor cells (CTCs) are extremely rare cells shed from tumors into the blood stream. These cells can provide valuable information about their tumor of origin and direct treatment decisions to improve patient outcomes. Current technologies isolate CTCs from a limited blood volume and often require pre-processing that leads to CTC loss, making it difficult to isolate enough CTCs to perform in-depth tumor analysis. Many inertial microfluidic devices have been developed to isolate CTCs at high flow rates, but they typically require either blood dilution, pre-processing to remove red blood cells, or a sheath buffer rather than being able to isolate cells directly from whole blood. To decrease the need for pre-processing while increasing CTC yield, we developed an inertial device, the CTCKey™, to focus CTCs in whole blood at high throughput yielding a concentrated product stream enriched for CTCs. The CTCKey™ consists of two sections to create CTC enriched blood that can be further processed using any CTC isolation device to selectively isolate the CTCs. A thorough analysis was performed using the MCF7 breast cancer cell line spiked into bovine serum albumin (BSA) solutions of varying concentrations, as well as whole blood to characterize the focusing patterns of the CTCKey™. At the optimal flow rate of 2.4 mL min−1, the CTCKey™ reduces the CTC containing blood volume by 78%; the CTCs from 1 mL of blood are now in 0.22 mL of blood. The CTCKey's™ ability to concentrate CTCs from a large original blood volume to a smaller, highly concentrated volume enables a much greater blood volume to be interrogated by downstream isolation and characterization methods despite their low volume input limitations. [ABSTRACT FROM AUTHOR]

Published

2021

180. Trinity researchers uncover new reasons to target neutrophils for tuberculosis therapy.

Subjects

TUBERCULOSIS, NEUTROPHILS, RESEARCH personnel, CONNECTIVE tissue cells, MYELOID cells

Abstract

New research conducted by scientists at Trinity College Dublin has shed light on the role of neutrophils in tuberculosis (TB) infection and lung damage. Neutrophils, a type of immune cell, play a protective role during early TB infection but can also cause lung tissue damage in established disease. The researchers found that infected macrophages can activate neutrophils, leading to the production of Neutrophil Extracellular Traps (NETs) and the release of proteins associated with severe TB disease. This discovery suggests that targeting neutrophils with anti-neutrophil therapies, in addition to antibiotics, could be a promising approach to treating TB and limiting lung damage. [Extracted from the article]

Published

2024

181. Biomolecular Atlas for Bone Marrow to Offer Unprecedented Window into Blood Production.

Subjects

BONE marrow, BONE marrow cells, BONE marrow cancer, BONE marrow diseases, BLOOD cells

Abstract

Researchers at Children's Hospital of Philadelphia (CHOP) and the Perelman School of Medicine at the University of Pennsylvania have developed a bone marrow atlas that provides a comprehensive view of healthy and diseased blood production. The atlas, published in the journal Cell, offers a visual representation of gene expression and spatial organization of bone marrow cells. The study, part of the Human BioMolecular Atlas Program (HuBMAP), involved collaboration between 42 research teams across multiple institutions. The atlas will aid in the development of diagnostic tests, identification of therapeutic targets, and the discovery of biomarkers of disease. [Extracted from the article]

Published

2024

182. Researchers from University of Houston Detail New Studies and Findings in the Area of Immunotherapy (Red Blood Cell Rosetting Enables Size-based Separation of Specific Lymphocyte Subsets From Blood In a Microfluidic Device).

Subjects

ERYTHROCYTES, LYMPHOCYTE subsets, MICROFLUIDIC devices, MONONUCLEAR leukocytes, IMMUNOTHERAPY, CENTRIFUGATION, BLOOD cells

Abstract

This paper describes a new approach that made it possible for a size-based separation method to isolate a desired subset of lymphocytes by making unwanted lymphocytes as well as other blood cells artificially larger. Keywords: Houston; State:Texas; United States; North and Central America; Blood Cells; Cell Research; Drugs and Therapies; Health and Medicine; Hemic and Immune Systems; Immunology; Immunotherapy; Leukocytes; Lymphocyte Subsets; Lymphocytes; Mononuclear Leukocytes; Pharmaceuticals EN Houston State:Texas United States North and Central America Blood Cells Cell Research Drugs and Therapies Health and Medicine Hemic and Immune Systems Immunology Immunotherapy Leukocytes Lymphocyte Subsets Lymphocytes Mononuclear Leukocytes Pharmaceuticals 1687 1687 1 04/24/23 20230425 NES 230425 2023 APR 28 (NewsRx) -- By a News Reporter-Staff News Editor at Immunotherapy Weekly -- Investigators publish new report on Drugs and Therapies - Immunotherapy. However, further separation of a specific lymphocyte subset from other unwanted lymphocytes using size-based methods is impossible because all lymphocytes have approximately the same size and can only be distinguished by surface markers. [Extracted from the article]

Published

2023

183. New therapy harnesses patients' blood cells to fight tumors.

Subjects

BLOOD cells, MONONUCLEAR leukocytes, DRUG therapy, CYTOCHEMISTRY, MOLECULAR biology

Abstract

The therapy, which harnesses immune cells collected from the patient's own tumors, could provide a new treatment option to cancer patients, potentially bypassing radiation therapies and harsh chemotherapy drugs. Keywords: Biological Therapy; Biomedical Engineering; Biomedicine; Biotechnology; Blood Cells; Cancer; Cell Research; Cell Therapy; Chemistry; Drug Development; Drugs and Therapies; Engineering; Health and Medicine; Hemic and Immune Systems; Hospitals; Immunology; Immunotherapy; Investment and Finance; Lymphocytes; Melanoma; Mononuclear Leukocytes; Northwestern University; Oncology; Technology EN Biological Therapy Biomedical Engineering Biomedicine Biotechnology Blood Cells Cancer Cell Research Cell Therapy Chemistry Drug Development Drugs and Therapies Engineering Health and Medicine Hemic and Immune Systems Hospitals Immunology Immunotherapy Investment and Finance Lymphocytes Melanoma Mononuclear Leukocytes Northwestern University Oncology Technology 617 617 1 04/24/23 20230425 NES 230425 2023 APR 25 (NewsRx) -- By a News Reporter-Staff News Editor at Immunotherapy Weekly -- Adoptive cell therapy (ACT) has become a promising immunotherapy tool to help treat advanced melanoma. [Extracted from the article]

Published

2023

184. Antibody dependent cellular cytotoxicity-inducing anti-EGFR antibodies as effective therapeutic option for cutaneous melanoma resistant to BRAF inhibitors.

Author

Muraro, Elena, Montico, Barbara, Lum, Benedict, Colizzi, Francesca, Giurato, Giorgio, Salvati, Annamaria, Guerrieri, Roberto, Rizzo, Aurora, Comaro, Elisa, Canzonieri, Vincenzo, Anichini, Andrea, Vecchio, Michele Del, Mortarini, Roberta, Milione, Massimo, Weisz, Alessandro, Pizzichetta, Maria Antonietta, Simpson, Fiona, Dolcetti, Riccardo, Fratta, Elisabetta, and Sigalotti, Luca

Subjects

ANTIBODY-dependent cell cytotoxicity, EPIDERMAL growth factor receptors, BRAF genes, IMMUNOGLOBULINS, BLOOD cells

Abstract

Introduction: About 50% of cutaneous melanoma (CM) patients present activating BRAF mutations that can be effectively targeted by BRAF inhibitors (BRAFi). However, 20% of CM patients exhibit intrinsic drug resistance to BRAFi, while most of the others develop adaptive resistance over time. The mechanisms involved in BRAFi resistance are disparate and globally seem to rewire the cellular signaling profile by up-regulating different receptor tyrosine kinases (RTKs), such as the epidermal growth factor receptor (EGFR). RTKs inhibitors have not clearly demonstrated anti-tumor activity in BRAFi resistant models. To overcome this issue, we wondered whether the shared up-regulated RTK phenotype associated with BRAFi resistance could be exploited by using immune weapons as the antibody-dependent cell cytotoxicity (ADCC)-mediated effect of anti-RTKs antibodies, and kill tumor cells independently from the mechanistic roots. Methods and results: By using an in vitro model of BRAFi resistance, we detected increased membrane expression of EGFR, both at mRNA and protein level in 4 out of 9 BRAFi-resistant (VR) CM cultures as compared to their parental sensitive cells. Increased EGFR phosphorylation and AKT activation were observed in the VR CM cultures. EGFR signaling appeared dispensable for maintaining resistance, since small molecule-, antibody- and CRISPR-targeting of EGFR did not restore sensitivity of VR cells to BRAFi. Importantly, immune-targeting of EGFR by the anti-EGFR antibody cetuximab efficiently and specifically killed EGFR-expressing VR CM cells, both in vitro and in humanized mouse models in vivo, triggering ADCC by healthy donors’ and patients’ peripheral blood cells. Conclusion: Our data demonstrate the efficacy of immune targeting of RTKs expressed by CM relapsing on BRAFi, providing the proof-of-concept supporting the assessment of anti-RTK antibodies in combination therapies in this setting. This strategy might be expected to concomitantly trigger the crosstalk of adaptive immune response leading to a complementing T cell immune rejection of tumors. [ABSTRACT FROM AUTHOR]

Published

2024

185. Cytokine and T cell responses in post-chikungunya viral arthritis: A cross-sectional study.

Author

Chang, Aileen Y., Tritsch, Sarah R., Herrera Gomez, Carlos Andres, Encinales, Liliana, Cadena Bonfanti, Andres, Rosales, Wendy, Mendoza-Torres, Evelyn, Simmens, Samuel, Amdur, Richard L., Mores, Christopher N., Fierbaugh, Paige, Perez Hernandez, Carlos Alberto, Avendaño, Geraldine, Silvera, Paula Bruges, Crespo, Yerlenis Galvis, Jimenez, Alberto David Cabana, Martinez Zapata, Jennifer Carolina, Jimenez, Dennys, Osorio-Llanes, Estefanie, and Castellar-Lopez, Jairo

Subjects

INFECTIOUS arthritis, T cells, TUMOR necrosis factors, REGULATORY T cells, CYTOKINES, BLOOD cells

Abstract

Objective: To define the relationship between chronic chikungunya post-viral arthritis disease severity, cytokine response and T cell subsets in order to identify potential targets for therapy. Methods: Participants with chikungunya arthritis were recruited from Colombia from 2019–2021. Arthritis disease severity was quantified using the Disease Activity Score-28 and an Arthritis-Flare Questionnaire adapted for chikungunya arthritis. Plasma cytokine concentrations (interleukin (IL)-1β, IL-2, IL-4, IL-6, IL-8, IL-10, IL-12p70, IL-13, interferon-γ and tumor necrosis factor (TNF)) were measured using a Meso Scale Diagnostics assay. Peripheral blood T cell subsets were measured using flow cytometry. Results: Among participants with chikungunya arthritis (N = 158), IL-2 levels and frequency of regulatory T cells (Tregs) were low. Increased arthritis disease activity was associated with higher levels of inflammatory cytokines (IL-6, TNF and CRP) and immunoregulatory cytokine IL-10 (p<0.05). Increased arthritis flare activity was associated with higher Treg frequencies (p<0.05) without affecting T effector (Teff) frequencies, Treg/Teff ratios and Treg subsets. Finally, elevated levels of IL-2 were correlated with increased Treg frequency, percent Tregs out of CD4+ T cells, and Treg subsets expressing immunosuppressive markers, while also correlating with an increased percent Teff out of live lymphocytes (p<0.05). Conclusion: Chikungunya arthritis is characterized by increased inflammatory cytokines and deficient IL-2 and Treg responses. Greater levels of IL-2 were associated with improved Treg numbers and immunosuppressive markers. Future research may consider targeting these pathways for therapy. [ABSTRACT FROM AUTHOR]

Published

2024

186. Highly Efficient Hemostatic Cross-Linked Polyacrylate Polymer Dressings for Immediate Hemostasis.

Author

Ye, Tong, Yang, Zhiyuan, Hao, Ruolin, Guo, Jinnan, Dou, Guifang, Meng, Zhiyun, Liu, Shuchen, Gu, Ruolan, Wu, Zhuona, Sun, Yunbo, Han, Peng, Jin, Yiguang, and Gan, Hui

Subjects

BLOOD coagulation, HEMOSTASIS, POLYMERIC sorbents, ELECTROSTATIC interaction, BLOOD cells, WOUND healing, BLOOD platelet aggregation, CROSSLINKED polymers, SUPERABSORBENT polymers

Abstract

A traumatic hemorrhage is fatal due to the great loss of blood in a short period of time; however, there are a few biomaterials that can stop the bleeding quickly due to the limited water absorption speed. Here, a highly absorbent polymer (HPA), polyacrylate, was prepared as it has the best structure–effectiveness relationship. Within a very short period of time (2 min), HPA continually absorbed water until it swelled up to its 600 times its weight; more importantly, the porous structure comprised the swollen dressing. This instantaneous swelling immediately led to rapid hemostasis in irregular wounds. We optimized the HPA preparation process to obtain a rapidly water-absorbent polymer (i.e., HPA-5). HPA-5 showed favorable adhesion and biocompatibility in vitro. A rat femoral arteriovenous complete shear model and a tail arteriovenous injury model were established. HPA exhibited excellent hemostatic capability with little blood loss and short hemostatic time compared with CeloxTM in both of the models. The hemostatic mechanisms of HPA consist of fast clotting by aggregating blood cells, activating platelets, and accelerating the coagulation pathway via water absorption and electrostatic interaction. HPA is a promising highly water-absorbent hemostatic dressing for rapid and extensive blood clotting after vessel injury. [ABSTRACT FROM AUTHOR]

Published

2024

187. Tick hemocytes have a pleiotropic role in microbial infection and arthropod fitness.

Author

Rolandelli, Agustin, Laukaitis-Yousey, Hanna J., Bogale, Haikel N., Singh, Nisha, Samaddar, Sourabh, O'Neal, Anya J., Ferraz, Camila R., Butnaru, Matthew, Mameli, Enzo, Xia, Baolong, Mendes, M. Tays, Butler, L. Rainer, Marnin, Liron, Cabrera Paz, Francy E., Valencia, Luisa M., Rana, Vipin S., Skerry, Ciaran, Pal, Utpal, Mohr, Stephanie E., and Perrimon, Norbert

Subjects

BLOOD cells, IXODES scapularis, TICKS, COMPARATIVE biology, ARTHROPODA, ANAPLASMA phagocytophilum, LYME disease, TICK infestations

Abstract

Uncovering the complexity of systems in non-model organisms is critical for understanding arthropod immunology. Prior efforts have mostly focused on Dipteran insects, which only account for a subset of existing arthropod species in nature. Here we use and develop advanced techniques to describe immune cells (hemocytes) from the clinically relevant tick Ixodes scapularis at a single-cell resolution. We observe molecular alterations in hemocytes upon feeding and infection with either the Lyme disease spirochete Borrelia burgdorferi or the rickettsial agent Anaplasma phagocytophilum. We reveal hemocyte clusters exhibiting defined signatures related to immunity, metabolism, and proliferation. Depletion of phagocytic hemocytes affects hemocytin and astakine levels, two I. scapularis hemocyte markers, impacting blood-feeding, molting behavior, and bacterial acquisition. Mechanistically, astakine alters hemocyte proliferation, whereas hemocytin affects the c-Jun N-terminal kinase (JNK) signaling pathway in I. scapularis. Altogether, we discover a role for tick hemocytes in immunophysiology and provide a valuable resource for comparative biology in arthropods. Rolandelli et al. define how immune cells from the tick Ixodes scapularis are affected by infection and show that this cell population have distinct signatures and functions in immunity, metabolism and proliferation. [ABSTRACT FROM AUTHOR]

Published

2024

188. Differential Gene Expression Profiling during Avian Immune Organ Development: Insights from Thymus and Bursa of Fabricius Transcriptome Analysis.

Author

El Helaly Goher, Mohamed Naguib, Moghaieb, Reda Elwan, El-Menawey, Mohamed Abdel-Raham, and Ramzy Stino, Farid Kamal

Subjects

GENE expression profiling, MORPHOGENESIS, GENE expression, HEMATOPOIETIC stem cells, BLOOD cells, POULTRY products

Abstract

Pluripotent hematopoietic stem cells undergo maturation to regenerate blood cells. T-cell and B-cell maturation from common lymphoid progenitors (CLPs) is regulated by distinct transcription factors and signaling pathways. Notch signaling, GATA3, and TCF1 drive T-cell fate, while EBF1, PU.1, E2A, Pax5, TCF1, and Foxo1 regulate B-cell differentiation. Alterations in these factors can cause lineage deviations. Gene expression profiling of the chick thymus and bursa reveals dynamic expression patterns of transcription factors, cytokines, and signal molecules. Notch1 and Dll1 expression that increase during later stages indicate the ongoing role of Notch signaling in T-cell lineage maintenance. The current study aimed to identify differentially expressed genes during the development of the avian immune organs, focusing on the thymus and bursa using 24 Ross 308 avian breed. The mRNA libraries from these organs were analyzed using quantitative Real-time PCR analysis at six time points spanning the embryonic ages (days 15 and 18) and posthatch age (days 3, 7, 14, and 28). The data for the gene expression indicated significant variations across different stages of immune organ development. Differential gene expression was observed between sorted T and B-cells, with GATA3, CD3e, CD4, and Ptprc showing higher expression in the T-cell population, and Pax5 and CD81 exhibiting higher expression in the B-cell population. Notably, ENO1 and IRF4 showed higher expression in T-cells at E15 and B-cells at E18. The study highlights the importance of regulatory factors and genes in maintaining cellular identity, furthers the understanding of avian immunology, and has the potential for improving poultry health and studying immune-related diseases in humans. These findings pave the way for further research on the role of biochemical components under important disease conditions in avian immunology and their potential applications for poultry health. [ABSTRACT FROM AUTHOR]

Published

2024

189. Isolation and expansion of pure and functional γδ T cells.

Author

Verkerk, Tamara, Pappot, Anouk T., Jorritsma, Tineke, King, Lisa A., Duurland, Mariël C., Spaapen, Robbert M., and van Ham, S. Marieke

Subjects

T cells, BLOOD cells, CELL separation, IMMUNE response, ANTIGEN presentation, PURE red cell aplasia

Abstract

γδ T cells are important components of the immune system due to their ability to elicit a fast and strong response against infected and transformed cells. Because they can specifically and effectively kill target cells in an MHC independent fashion, there is great interest to utilize these cells in anti-tumor therapies where antigen presentation may be hampered. Since only a small fraction of T cells in the blood or tumor tissue are γδ T cells, they require extensive expansion to allow for fundamental, preclinical and ex vivo research. Although expansion protocols can be successful, most are based on depletion of other cell types rather than γδ T cell specific isolation, resulting in unpredictable purity of the isolated fraction. Moreover, the primary focus only lies with expansion of Vd2+ T cells, while Vd1+ T cells likewise have anti-tumor potential. Here, we investigated whether γδ T cells directly isolated from blood could be efficiently expanded while maintaining function. γδ T cell subsets were isolated using MACS separation, followed by FACS sorting, yielding >99% pure γδ T cells. Isolated Vd1+ and Vd2+ T cells could effectively expand immediately after isolation or upon freeze/thawing and reached expansion ratios between 200 to 2000-fold starting from varying numbers using cytokine supported feeder stimulations. MACS/FACS isolated and PHA stimulated γδ T cells expanded as good as immobilized antibody mediated stimulated cells in PBMCs, but delivered purer cells. After expansion, potential effector functions of γδ T cells were demonstrated by IFN-g, TNF-a and granzyme B production upon PMA/ionomycin stimulation and effective killing capacity of multiple tumor cell lines was confirmed in killing assays. In conclusion, pure γδ T cells can productively be expanded while maintaining their anti-tumor effector functions against tumor cells. Moreover, γδ T cells could be expanded from low starting numbers suggesting that this protocol may even allow for expansion of cells extracted from tumor biopsies. [ABSTRACT FROM AUTHOR]

Published

2024

190. ALOX5 drives the pyroptosis of CD4+ T cells and tissue inflammation in rheumatoid arthritis.

Author

Cai, Hao, Zhang, Jianhua, Xu, Hua, Sun, Weiwei, Wu, Weijie, Dong, Chen, Zhou, Ping, Xue, Chengbin, Nan, Yunyi, Ni, Yingchen, Wu, Xinyuan, Gu, Zhifeng, Chen, Minhao, and Wang, Youhua

Subjects

T cells, PYROPTOSIS, RHEUMATOID arthritis, APOPTOSIS, BLOOD cells, DISEASE remission

Abstract

Pyroptosis, an inflammatory form of programmed cell death, is linked to the pathology of rheumatoid arthritis (RA). Here, we investigated the molecular mechanism underlying pyroptosis in T cells isolated from patients with RA. Compared with healthy individuals, patients with RA had more pyroptotic CD4+ T cells in blood and synovia, which correlated with clinical measures of disease activity. Moreover, the mRNA expression and protein abundance of arachidonate 5-lipoxygenase (ALOX5), which converts arachidonic acid to leukotriene A4 (LTA4), were increased in CD4+ T cells from patients with RA and, among patients with RA, were lowest in those in clinical remission. Knockdown or pharmacological inhibition of ALOX5 suppressed CD4+ T cell pyroptosis and improved symptoms in two rodent models of RA. Mechanistically, the increase in ALOX5 activity in RA CD4+ T cells enhanced the production of the LTA4 derivative LTB4, which stimulated Ca2+ influx through ORAI3 channels, leading to the activation of NLRP3 inflammasomes and pyroptosis. Our findings reveal a role for ALOX5 in RA and provide a molecular basis for further exploring the clinical utility of ALOX5 inhibition in RA and for using ALOX5 as a biomarker to distinguish active disease and remission in RA. Editor's summary: Pyroptosis of CD4+ T cells is associated with synovial inflammation in rheumatoid arthritis (RA). Cai et al. found that increased abundance of the leukotriene biosynthetic enzyme ALOX5 in circulating and synovium-infiltrating CD4+ T cells drove pyroptosis in these cells, which correlated with the clinical severity of RA. Leukotrienes generated by ALOX5 stimulated Ca2+ influx through ORAI3 channels that led to inflammasome activation and pyroptosis. The FDA-approved ALOX5 inhibitor zileuton suppressed CD4+ T cell pyroptosis and reduced joint inflammation in rodent models of RA, suggesting ALOX5 as a potential therapeutic target in RA. —Annalisa M. VanHook [ABSTRACT FROM AUTHOR]

Published

2024

191. Challenges and strategies associated with CAR-T cell therapy in blood malignancies.

Author

Liu, Zhaoyun, Lei, Wenhui, Wang, Hao, Liu, Xiaohan, and Fu, Rong

Subjects

CELLULAR therapy, BLOOD cells, OVERALL survival, CANCER remission, TREATMENT effectiveness

Abstract

Cellular immunotherapy, particularly CAR-T cells, has shown potential in the improvement of outcomes in patients with refractory and recurrent malignancies of the blood. However, achieving sustainable long-term complete remission for blood cancer remains a challenge, with resistance and relapse being expected outcomes for many patients. Although many studies have attempted to clarify the mechanisms of CAR-T cell therapy failure, the mechanism remains unclear. In this article, we discuss and describe the current state of knowledge regarding these factors, which include elements that influence the CAR-T cell, cancer cells as a whole, and the microenvironment surrounding the tumor. In addition, we propose prospective approaches to overcome these obstacles in an effort to decrease recurrence rates and extend patient survival subsequent to CAR-T cell therapy. [ABSTRACT FROM AUTHOR]

Published

2024

192. Isolation of circulating endothelial cells provides tool to determine endothelial cell senescence in blood samples.

Author

Kalies, Katrin, Knöpp, Kai, Wurmbrand, Leonie, Korte, Laura, Dutzmann, Jochen, Pilowski, Claudia, Koch, Susanne, and Sedding, Daniel

Subjects

ENDOTHELIAL cells, BLOOD cells, OLDER patients, BLOOD sampling, CELL morphology

Abstract

Circulating endothelial cells (CEC) are arising as biomarkers for vascular diseases. However, whether they can be utilized as markers of endothelial cell (EC) senescence in vivo remains unknown. Here, we present a protocol to isolate circulating endothelial cells for a characterization of their senescent signature. Further, we characterize different models of EC senescence induction in vitro and show similar patterns of senescence being upregulated in CECs of aged patients as compared to young volunteers. Replication-(ageing), etoposide-(DNA damage) and angiotensin II-(ROS) induced senescence models showed the expected cell morphology and proliferation-reduction effects. Expression of senescence-associated secretory phenotype markers was specifically upregulated in replication-induced EC senescence. All models showed reduced telomere lengths and induction of the INK4a/ARF locus. Additional p14ARF-p21 pathway activation was observed in replication- and etoposide-induced EC senescence. Next, we established a combined magnetic activated- and fluorescence activated cell sorting (MACS-FACS) based protocol for CEC isolation. Interestingly, CECs isolated from aged volunteers showed similar senescence marker patterns as replication- and etoposide-induced senescence models. Here, we provide first proof of senescence in human blood derived circulating endothelial cells. These results hint towards an exciting future of using CECs as mirror cells for in vivo endothelial cell senescence, of particular interest in the context of endothelial dysfunction and cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2024

193. An early warning indicator of mortality risk in patients with COVID-19: the neutrophil extracellular traps/neutrophilic segmented granulocyte ratio.

Author

Qiong Wang, Yu Qin, Jingyun Ma, Kehao Zhou, Guiping Xia, Ya Li, Li Xie, Afful, Richmond Godwin, Qian Lan, Xingyu Huo, Jian Zou, and Hailin Yang

Subjects

COVID-19, NEUTROPHILS, BLOOD cells, CELL morphology, CELL analysis

Abstract

Background: Neutrophil extracellular traps (NETs) play a key role in thrombus formation in patients with coronavirus disease 2019 (COVID-19). However, the existing detection and observation methods for NETs are limited in their ability to provide quantitative, convenient, and accurate descriptions of in situ NETs. Therefore, establishing a quantitative description of the relationship between NETs and thrombosis remains a challenge. Objective: We employed morphological observations of blood cells and statistical analyses to investigate the correlation between the NETs/neutrophilic segmented granulocyte ratio and mortality risk in patients with COVID-19. Methods: Peripheral blood samples were collected from 117 hospitalized patients with COVID-19 between November 2022 and February 2023, and various blood cell parameters were measured. Two types of smudge cells were observed in the blood and counted: lymphatic and neutral smudge cells. Statistical data analysis was used to establish COVID-19 mortality risk assessment indicators. Results: Morphological observations of neutrophilic smudge cells revealed swelling, eruption, and NETs formation in the neutrophil nuclei. Subsequently, the NETs/neutrophilic segmented granulocyte ratio (NNSR) was calculated. A high concentration of NETs poses a fatal risk for thrombus formation in patients. Statistical analysis indicated that a high NNSR was more suitable for evaluating the risk of death in patients with COVID-19 compared to elevated fibrinogen (FIB) and D-dimer (DD) levels. Conclusion: Observing blood cell morphology is an effective method for the detection of NETs, NNSR are important markers for revealing the mortality risk of patients with COVID-19. [ABSTRACT FROM AUTHOR]

Published

2024

194. Fluorescent Graphitic Carbon Nitride (g-C 3 N 4)-Embedded Hyaluronic Acid Microgel Composites for Bioimaging and Cancer-Cell Targetability as Viable Theragnostic.

Author

Suner, Selin S., Sahiner, Mehtap, Demirci, Sahin, Umut, Evrim, and Sahiner, Nurettin

Subjects

HYALURONIC acid, CELL imaging, CANCER cells, NITRIDES, BLOOD cells, MICROGELS

Abstract

Fluorescent graphitic carbon nitride (g-C3N4) doped with various heteroatoms, such as B, P, and S, named Bg-C3N4, Pg-C3N4, and Sg-C3N4, were synthesized with variable band-gap values as diagnostic materials. Furthermore, they were embedded within hyaluronic acid (HA) microgels as g-C3N4@HA microgel composites. The g-C3N4@HA microgels had a 0.5–20 μm size range that is suitable for intravenous administration. Bare g-C3N4 showed excellent fluorescence ability with 360 nm excitation wavelength and 410–460 emission wavelengths for possible cell imaging application of g-C3N4@HA microgel composites as diagnostic agents. The g-C3N4@HA-based microgels were non-hemolytic, and no clotting effects on blood cells or cell toxicity on fibroblasts were observed at 1000 μg/mL concentration. In addition, approximately 70% cell viability for SKMEL-30 melanoma cells was seen with Sg-C3N4 and its HA microgel composites. The prepared g-C3N4@HA and Sg-C3N4@HA microgels were used in cell imaging because of their excellent penetration capability for healthy fibroblasts. Furthermore, g-C3N4-based materials did not interact with malignant cells, but their HA microgel composites had significant penetration capability linked to the binding function of HA with the cancerous cells. Flow cytometry analysis revealed that g-C3N4 and g-C3N4@HA microgel composites did not interfere with the viability of healthy fibroblast cells and provided fluorescence imaging without any staining while significantly decreasing the viability of cancerous cells. Overall, heteroatom-doped g-C3N4@HA microgel composites, especially Sg-C3N4@HA microgels, can be safely used as multifunctional theragnostic agents for both diagnostic as well as target and treatment purposes in cancer therapy because of their fluorescent nature. [ABSTRACT FROM AUTHOR]

Published

2024

195. Juvenile Primary Sjögren Syndrome in a 15-Year-Old Boy with Renal Involvement: A Case Report and Review of the Literature.

Author

Bouchalova, Katerina, Flögelova, Hana, Horak, Pavel, Civrny, Jakub, Mlcak, Petr, Pink, Richard, Michalek, Jaroslav, Camborova, Petra, Mikulkova, Zuzana, and Kriegova, Eva

Subjects

SJOGREN'S syndrome, LITERATURE reviews, IMMUNOLOGIC memory, KILLER cells, BLOOD cells

Abstract

Juvenile primary Sjögren syndrome (pSS) with renal involvement is extremely rare, reported approximately in 50 children, predominantly girls. Here, we present the first reported case of a male child with juvenile pSS with ocular surface disease (previously keratoconjunctivitis sicca), submandibular salivary gland involvement, and tubulointerstitial nephritis. First, two symptoms were clinically apparent at presentation. We illustrate here that kidney involvement in pSS should be actively looked for, as juvenile pSS may be associated with asymptomatic renal involvement. Immunophenotyping of peripheral blood cells using multicolor flow cytometry revealed at the time of diagnosis changes in both adaptive (T memory cells and B memory cells), and innate immunity (an increased activation of natural killer cells, as well as monocytes and neutrophils, and an increased representation of intermediate monocytes). Our case report points to the importance of kidney examination, early diagnosis and therapy in juvenile pSS, as well as highlights international collaboration to obtain more data for this rare disease. [ABSTRACT FROM AUTHOR]

Published

2024

196. Age-related changes in the hematopoietic stem cell pool revealed via quantifying the balance of symmetric and asymmetric divisions.

Author

Kawahigashi, Teiko, Iwanami, Shoya, Takahashi, Munetomo, Bhadury, Joydeep, Iwami, Shingo, and Yamazaki, Satoshi

Subjects

HEMATOPOIETIC stem cells, CELL division, SOMATIC cells, PROGENITOR cells, BLOOD cells, STEM cells

Abstract

Hematopoietic stem cells (HSCs) are somatic stem cells that continuously generate lifelong supply of blood cells through a balance of symmetric and asymmetric divisions. It is well established that the HSC pool increases with age. However, not much is known about the underlying cause for these observed changes. Here, using a novel method combining single-cell ex vivo HSC expansion with mathematical modeling, we quantify HSC division types (stem cell—stem cell (S-S) division, stem cell—progenitor cell (S-P) division, and progenitor cell—progenitor cell (P-P) division) as a function of the aging process. Our time-series experiments reveal how changes in these three modes of division can explain the increase in HSC numbers with age. Contrary to the popular notion that HSCs divide predominantly through S-P divisions, we show that S-S divisions are predominant throughout the lifespan of the animal, thereby expanding the HSC pool. We, therefore, provide a novel mathematical model-based experimental validation for reflecting HSC dynamics in vivo. [ABSTRACT FROM AUTHOR]

Published

2024

197. Clonal barcoding of endogenous adult hematopoietic stem cells reveals a spectrum of lineage contributions.

Author

Jue Feng, Geunhyo Jang, Esteva, Eduardo, Adams, Nicholas M., Hua Jin, and Reizis, Boris

Subjects

HEMATOPOIETIC stem cells, MULTIPOTENT stem cells, MYELOID cells, BLOOD cells, GENETIC barcoding

Abstract

The hierarchical model of hematopoiesis posits that self-renewing, multipotent hematopoietic stem cells (HSCs) give rise to all blood cell lineages. While this model accounts for hematopoiesis in transplant settings, its applicability to steady-state hematopoiesis remains to be clarified. Here, we used inducible clonal DNA barcoding of endogenous adult HSCs to trace their contribution to major hematopoietic cell lineages in unmanipulated animals. While the majority of barcodes were unique to a single lineage, we also observed frequent barcode sharing between multiple lineages, specifically between lymphocytes and myeloid cells. These results suggest that both single-lineage and multi- lineage contributions by HSCs collectively drive continuous hematopoiesis, and highlight a close relationship of myeloid and lymphoid development. [ABSTRACT FROM AUTHOR]

Published

2024

198. A comprehensive battery of flow cytometric immunoassays for the in vitro testing of chemical effects in human blood cells.

Author

Pierzchalski, Arkadiusz, Zenclussen, Ana C., and Herberth, Gunda

Subjects

BLOOD cells, CHEMICAL testing, MONONUCLEAR leukocytes, FLOW batteries, KILLER cells

Abstract

Background: There is a growing need for immunological assays to test toxic and modulatory effects of chemicals. The assays should be easy to use, reproducible and superior to cell line-based assays. We have therefore developed a comprehensive portfolio of assays based on primary human blood cells that are suitable for testing chemical effects. Methods: The flow cytometry-based assays were designed to target a wide range of human peripheral blood mononuclear cells and whole blood, including T cells, NK cells, B cells, basophils and innate-like T cells such as gdT, MAIT and NKT cells. We have selected a set of activation markers for each immune cell, e.g: CD154 (T cells), CD137, CD107a (NK cells), CD63 (basophils), CD69, CD83 (B cells), CD69, IFN-g (MAIT cells) and we selected cell specific stimuli: aCD3 antibodies (T cells); E. coli and cytokines IL-12/15/ 18 (MAIT cells); CpG ODN2006, R848 or aCD40 antibodies (B cells), fMLP or aFcϵR1 (basophils) or K562 cells (NK cells). Results: By selecting immune cell-specific markers and cell-specific stimuli, we were able to induce particular immune responses from the targeted immune cells. For example, the response to stimulation with anti-CD3 antibodies was in 36.8% of CD107a+CD8+ cells. Cytokine stimulation induced the production of IFN-g in 30% of MAIT cells. After stimulation with E. coli, around 50% of MAIT cells produced TNF. About 40% of basophils responded to aFcƐR1 stimulation. Similar activation ranges were achieved in K562-stimulated NK cells.Conclusion: Our test portfolio covers the most relevant immune cells present in human blood, providing a solid basis for in vitro toxicity and immunomodulatory testing of chemicals. By using human blood, the natural composition of cells found in the blood can be determined and the effects of chemicals can be detected at the cellular level. [ABSTRACT FROM AUTHOR]

Published

2024

199. The phosphatase DUSP22 inhibits UBR2-mediated K63-ubiquitination and activation of Lck downstream of TCR signalling.

Author

Shih, Ying-Chun, Chen, Hsueh-Fen, Wu, Chia-Ying, Ciou, Yi-Ru, Wang, Chia-Wen, Chuang, Huai-Chia, and Tan, Tse-Hua

Subjects

REGULATORY T cells, MITOGEN-activated protein kinase phosphatases, T cell receptors, T cells, GENE expression, BLOOD cells, UBIQUITIN ligases

Abstract

DUSP22 is a dual-specificity phosphatase that inhibits T cell activation by inactivating the kinase Lck. Here we show that the E3 ubiquitin ligase UBR2 is a positive upstream regulator of Lck during T-cell activation. DUSP22 dephosphorylates UBR2 at specific Serine residues, leading to ubiquitin-mediated UBR2 degradation. UBR2 is also modified by the SCF E3 ubiquitin ligase complex via Lys48-linked ubiquitination at multiple Lysine residues. Single-cell RNA sequencing analysis and UBR2 loss of function experiments showed that UBR2 is a positive regulator of proinflammatory cytokine expression. Mechanistically, UBR2 induces Lys63-linked ubiquitination of Lck at Lys99 and Lys276 residues, followed by Lck Tyr394 phosphorylation and activation as part of TCR signalling. Inflammatory phenotypes induced by TCR-triggered Lck activation or knocking out DUSP22, are attenuated by genomic deletion of UBR2. UBR2-Lck interaction and Lck Lys63-linked ubiquitination are induced in the peripheral blood T cells of human SLE patients, which demonstrate the relevance of the UBR2-mediated regulation of inflammation to human pathology. In summary, we show here an important regulatory mechanism of T cell activation, which finetunes the balance between T cell response and aggravated inflammation. The T cell receptor signalosome integrates multiple positive and negative regulatory elements to finetune the response and limit harmful inflammation. Here authors show a regulatory cascade of T cell activation, in which DUSP22 negatively regulates UBR2, which is an activator of the kinase Lck via K63 ubiquitination. [ABSTRACT FROM AUTHOR]

Published

2024

200. Immunophenotyping of hemocytes from infected Galleria mellonella larvae as an innovative tool for immune profiling, infection studies and drug screening.

Author

Gallorini, Marialucia, Marinacci, Beatrice, Pellegrini, Benedetta, Cataldi, Amelia, Dindo, Maria Luisa, Carradori, Simone, and Grande, Rossella

Subjects

GREATER wax moth, BLOOD cells, MEDICAL screening, DRUG discovery, LARVAE, IMMUNOPHENOTYPING, CD14 antigen

Abstract

In recent years, there has been a considerable increasing interest in the use of the greater wax moth Galleria mellonella as an animal model. In vivo pharmacological tests, concerning the efficacy and the toxicity of novel compounds are typically performed in mammalian models. However, the use of the latter is costly, laborious and requires ethical approval. In this context, G. mellonella larvae can be considered a valid option due to their greater ease of use and the absence of ethical rules. Furthermore, it has been demonstrated that the immune system of these invertebrates has similarity with the one of mammals, thus guaranteeing the reliability of this in vivo model, mainly in the microbiological field. To better develop the full potential of this model, we present a novel approach to characterize the hemocyte population from G. mellonella larvae and to highlight the immuno modulation upon infection and treatments. Our approach is based on the detection in isolated hemocytes from G. mellonella hemolymph of cell membrane markers typically expressed by human immune cells upon inflammation and infection, for instance CD14, CD44, CD80, CD163 and CD200. This method highlights the analogies between G. mellonella larvae and humans. Furthermore, we provide an innovative tool to perform pre-clinical evaluations of the efficacy of antimicrobial compounds in vivo to further proceed with clinical trials and support drug discovery campaigns. [ABSTRACT FROM AUTHOR]

Published

2024