Your search keyword '"Clonal expansion"' showing total 981 results

1. Single-cell analysis of cerebrospinal fluid reveals common features of neuroinflammation

Author

Jacobs, Benjamin M., Gasperi, Christiane, Kalluri, Sudhakar Reddy, Al-Najjar, Raghda, McKeon, Mollie O., Else, Jonathan, Pukaj, Albert, Held, Friederike, Sawcer, Stephen, Ban, Maria, and Hemmer, Bernhard

Published

2025

2. Steroids-producing nodules: a two-layered adrenocortical nodular structure as a precursor lesion of cortisol-producing adenoma

Author

Fukumoto, Tazuru, Umakoshi, Hironobu, Iwahashi, Norifusa, Ogasawara, Tatsuki, Yokomoto-Umakoshi, Maki, Kaneko, Hiroki, Fujita, Masamichi, Uchida, Naohiro, Nakao, Hiroshi, Kawamura, Namiko, Matsuda, Yayoi, Sakamoto, Ryuichi, Miyazawa, Takashi, Seki, Masahide, Eto, Masatoshi, Oda, Yoshinao, Suzuki, Yutaka, Ogawa, Seishi, and Ogawa, Yoshihiro

Published

2024

3. Multistage carcinogenesis in occupational cholangiocarcinoma: the impact of clonal expansion and risk estimation

Author

Masahiko Watanabe, Hiroshi Haeno, Sachiyo Mimaki, and Katsuya Tsuchihara

Subjects

Occupational cholangiocarcinoma, Intrahepatic cholangiocarcinoma, Multistage model, Mutation, Clonal expansion, Risk estimation, Ecology, QH540-549.5, Genetics, QH426-470

Abstract

Abstract Background Both mutation induction and clonal expansion of mutated cells cause cancer. The probability of cancer development depends on mutations, clonal growth rates, and carcinogenic mechanisms. A recent study showed cases of occupational cholangiocarcinomas that originate multifocally, with higher mutation burden levels than those in common cholangiocarcinomas. This study aimed to identify the effect of clonal expansion on and estimate the risk of occupational and common intrahepatic cholangiocarcinomas (ICCs) using a multistage model modified to include the effect of cell expansion at any carcinogenic stage. Methods The age-specific incidence of common ICC estimated from the Vital Statistics in Japan and the prognosis of ICC, and mutation frequencies of occupational and common ICC available from the previous report, were applied to a multistage model modified with cell proliferation effects. From the fittest model, the risk after exposure was estimated. Results The required number of stages for carcinogenesis was estimated to be three based on the incidences and mutation frequencies of occupational and common ICCs. Based on this estimation, the predicted incidence curve under the model was similar to that estimated from the ICC mortality rate, except for older adults. The model indicated a minor effect of clonal expansion on the observed occupational ICC risk. It predicted a rapid decrease in ICC risk after the cessation of occupational exposure, although the time of clinical detection of cancer after the exposure was affected by latency. The model predicted an increase in cancer risk in older adults caused by cell expansion and common background mutations. However, the risk in older adults was overestimated in the case of common ICC; this divergence could influence occupational ICC cases. Conclusions Three-stage ICC carcinogenesis has been proposed. The high mutation burden levels caused by occupational exposure led to an immediate incidence of cancer. After a long period of relatively low cancer risk, an increased risk in older adults was also predicted.

Published

2024

4. A minority of proliferating human CD4+ T cells in antigen-driven proliferation assays are antigen specific.

Author

Bhattacharjee, Pushpak, Pakusch, Miha, Lacorcia, Matthew, Chiu, Chris Y., Liu, Xin, Tresoldi, Eleonora, Foster, Abby, King, Laura, Cameron, Fergus J., and Mannering, Stuart I.

Subjects

T cells, TYPE 1 diabetes, TETANUS vaccines, FLUORESCENT dyes, AUTOANTIGENS

Abstract

Antigen-driven T-cell proliferation is often measured using fluorescent dye dilution assays, such as the CFSE-based proliferation assay. Dye dilution assays have been powerful tools to detect human CD4+ T-cell responses, particularly against autoantigens. However, it is not known how many cells within the proliferating population are specific for the stimulating antigen. Here we determined the frequency of CD4+ T cells specific for the stimulating antigen within the antigen-responsive population of CFSE-based proliferation assays. We compared CD4+ T-cell responses to a type 1 diabetes autoantigen (proinsulin C-peptide) and to a vaccine antigen (tetanus toxoid). The TCRs expressed by antigen-responsive CD4+ T cells were sequenced, and their antigen specificity was tested functionally by expressing them in a reporter T-cell line. Responses to C-peptide were weak, but detectable, in PBMC from individuals with T1D, whereas responses to tetanus toxoid were much stronger. The frequency of antigen-specific CD4+ T cells correlated with the strength of the response to antigen in the proliferation assay. However, antigen-specific CD4+ T cells were rare among antigen-responsive CD4+ T cells. For C-peptide, an average frequency of 7.5% (1%–11%, n = 4) of antigen-responsive CD4+ T cells were confirmed to be antigen specific. In the tetanus-toxoid-stimulated cultures, on average, 45% (16%–78%, n = 5) of the antigen-responsive CD4+ T cells were tetanus toxoid specific. These data show that antigen-specific CD4+ T cells are a minority of the cells that proliferate in response to antigen and have important implications for in vitro CD4+ T-cell proliferation assays. [ABSTRACT FROM AUTHOR]

Published

2024

5. Multistage carcinogenesis in occupational cholangiocarcinoma: the impact of clonal expansion and risk estimation.

Author

Watanabe, Masahiko, Haeno, Hiroshi, Mimaki, Sachiyo, and Tsuchihara, Katsuya

Subjects

OCCUPATIONAL exposure, OLDER people, DISEASE risk factors, CARCINOGENESIS, VITAL statistics

Abstract

Background: Both mutation induction and clonal expansion of mutated cells cause cancer. The probability of cancer development depends on mutations, clonal growth rates, and carcinogenic mechanisms. A recent study showed cases of occupational cholangiocarcinomas that originate multifocally, with higher mutation burden levels than those in common cholangiocarcinomas. This study aimed to identify the effect of clonal expansion on and estimate the risk of occupational and common intrahepatic cholangiocarcinomas (ICCs) using a multistage model modified to include the effect of cell expansion at any carcinogenic stage. Methods: The age-specific incidence of common ICC estimated from the Vital Statistics in Japan and the prognosis of ICC, and mutation frequencies of occupational and common ICC available from the previous report, were applied to a multistage model modified with cell proliferation effects. From the fittest model, the risk after exposure was estimated. Results: The required number of stages for carcinogenesis was estimated to be three based on the incidences and mutation frequencies of occupational and common ICCs. Based on this estimation, the predicted incidence curve under the model was similar to that estimated from the ICC mortality rate, except for older adults. The model indicated a minor effect of clonal expansion on the observed occupational ICC risk. It predicted a rapid decrease in ICC risk after the cessation of occupational exposure, although the time of clinical detection of cancer after the exposure was affected by latency. The model predicted an increase in cancer risk in older adults caused by cell expansion and common background mutations. However, the risk in older adults was overestimated in the case of common ICC; this divergence could influence occupational ICC cases. Conclusions: Three-stage ICC carcinogenesis has been proposed. The high mutation burden levels caused by occupational exposure led to an immediate incidence of cancer. After a long period of relatively low cancer risk, an increased risk in older adults was also predicted. [ABSTRACT FROM AUTHOR]

Published

2024

6. 354 - Pathobiology of Human Immunodeficiency Viruses

Author

Blankson, Joel N., Siliciano, Robert F., and Maldarelli, Frank

Published

2024

7. Exploring the impact of immune response on tumor heterogeneity through mathematical modeling

Author

Diksha Gautam, Sanjeev Kumar, Rashmi Sharma, and Deepshikha Dixit

Subjects

mathematical modeling, tumor heterogeneity, immune response, reaction-diffusion model, clonal expansion, mutation, therapeutic strategies, Immunologic diseases. Allergy, RC581-607

Abstract

Aim: This article presents an investigation into various mathematical models for cell population growth, including tumor cells, and their dynamics. Methods: We classify the models into five categories: exponential, logistic, time-tested, heterogeneous, and immunology. Mathematical modeling provides insights into the development of tumors over time and how their proliferation rate becomes more dangerous. To explore the impact of immune response on tumor heterogeneity, we develop a reaction-diffusion model of tumor growth that incorporates tumor-immune interactions and a mechanism for tumor mutation and clonal expansion. We use numerical simulations to investigate how variation in immune response affects tumor heterogeneity. Results: Our findings show that a stronger immune response leads to greater homogeneity in the tumor population, which suggests that enhancing immune response could reduce tumor heterogeneity and improve treatment outcomes. Conclusions: These results have important implications for the development of therapeutic strategies targeting the immune system to combat tumor heterogeneity.

Published

2024

8. Tracing clonal cell plasticity in the microenvironment of pancreatic ductal adenocarcinoma

Author

Koplev, Simon, Gill, Michael B., Marioni, John, and Miller, Martin

Subjects

clonal expansion, cyclical imaging, epithelial-mesenchymal transition, epitope barcoding, pancreatic cancer, polyclonality, tumour microenvironment

Abstract

The pancreas may regenerate without stem cells by induction of cellular plasticity between differentiated cells. Although essential for the remarkable capacity for pancreas regeneration, this property entails a vulnerability to cancer through acinar-to-ductal metaplasia and dedifferentiation by epithelial-mesenchymal transition, which contributes in largely unknown ways to metastasis in pancreatic cancer. As with most solid tumours, pancreatic ductal adenocarcinoma develops at the interface of cellular plasticity, genomic instability, and tumour microenvironments. However, current methodologies of analysing tumour tissue are unable to measure these modalities jointly. Here, by developing a method for epitope barcoding measured by cyclical imaging of antibody binding with confocal microscopes, this thesis explores the utility of multicolour cell labelling to investigate how polyclonal cancer evolution relates to epithelial-mesenchymal transition. The assembled barcodes consist of combinations of epitopes attached to a fluorophore and a nuclear-localisation signal, which enables cell sorting, quantitative image analysis, and effective decoding by statistical analysis. Using subcutaneous mouse models of pancreatic cancer, this thesis demonstrates that isogenic epitope labelling can detect epithelial clonal expansion events co-localised with fibroblasts in the tumour microenvironment. The epitope barcode constructs were stably expressed in mouse tumours for at least 2-3 weeks, proving feasibility of multicolour lineage tracing with cyclical imaging. By amending the barcodes with 8bp tags sequenced with single-cell RNA-seq, transcriptomic scores for epithelial-mesenchymal transition showed evidence for selectional acquisition of epithelial lineages during subcutaneous colonisation. Such labelled isogenic cell populations were amenable to Luria-Delbrück fluctuation analysis detecting lineages with epigenetic inheritance of cell states. Altogether, epitope barcoding and cyclical imaging form a compelling experimental strategy for investigating the clonality of transdifferentiation in the microenvironment of pancreatic cancer.

Published

2023

9. Meta-analyses of the global multilocus genotypes of the human pathogen Campylobacter jejuni.

Author

Poorrashidi, Monir, Hitchcock, Megan, and Xu, Jianping

Subjects

*CAMPYLOBACTER jejuni, *CAMPYLOBACTER infections, *GENOTYPES, *INFECTIOUS disease transmission, *GENETIC variation, *LINKAGE disequilibrium

Abstract

Campylobacter infections are a leading cause of bacterial diarrheal illness worldwide, with increasing reports of outbreaks in both developing and developed countries. Most studies investigating strain genotypes and epidemiology of Campylobacter jejuni examined on a local scale. Using the archived multilocus sequence typing data at seven loci, and associated strain metadata from the PubMLST database, here we investigated the spatial and temporal genetic structure of the global population of C. jejuni. Our analyses revealed evidence for clonal dispersals of multiple sequence types (STs) among countries and continents. However, despite the observed clonal dispersal and that most genetic variations were found within individual geographic subpopulations, both the non-clone-corrected and clone-corrected samples showed evidence of significant genetic differentiation among national and continental subpopulations, with non-clone-corrected samples showing greater differentiation than clone-corrected samples. Phylogenetic incompatibility analyses provided evidence for recombination within each continental subpopulation. However, linkage disequilibrium analyses rejected the hypothesis of random recombination across the samples. Temporally, multiple STs were found to persist across four decades and the five globally most common STs showed relatively stable frequencies over the last two decades. We discussed the implications of our results to food security, disease transmission, and public health management. [ABSTRACT FROM AUTHOR]

Published

2024

10. Belowground exploration by trees and shrubs.

Author

Putz, Francis E., Canham, Charles D., and Ollinger, Scott V.

Subjects

SHRUBS, TREES, WOODY plants, DISTRIBUTION (Probability theory), ROOT growth, ASH (Tree), TUNDRAS

Abstract

Unlike trees, shrubs (i.e., multiple-stemmed woody plants) do not need evenly spaced large diameter structural roots and therefore should be more responsive to heterogeneous distributions of soil resources and spread further per unit belowground biomass. We therefore hypothesized that compared to trees, shrubs respond more to asymmetric distributions of nutrients, reach nutrient-rich patches of soil faster, and do so with less below-ground biomass. To test these three hypotheses, we planted individual seedlings of shrubs (Cornus racemosa, Rhus glabra, and Viburnum dentatum) and trees (Acer rubrum, Betula populifolia, and Fraxinus americana) in the centers of sand-filled rectangular boxes. In one direction we created a stepwise gradient of increasing nutrients with slow-release fertilizer; in the other direction, no fertilizer was added. Seedlings were harvested when their first root reached the plexiglass-covered fertilized end of their box; time taken, above-ground biomass, and below-ground biomass per nutrient segment were determined. Shrubs and trees did not consistently differ in precision of root foraging (i.e., the ratio of biomass in the fertilized and unfertilized soil) or in rates (g/day) and efficiencies (cm/day) of lateral root growth. Interspecific variation appeared more related to species' habitats than to growth form. The fastest and most efficient roots were produced by the shrub (R. glabra) and the tree (B. populifolia), both characteristic of poor and heterogeneous soils. Root foraging by R. glabra was also facilitated by rapid rhizomatous expansion. [ABSTRACT FROM AUTHOR]

Published

2024

11. A minority of proliferating human CD4+ T cells in antigen-driven proliferation assays are antigen specific

Author

Pushpak Bhattacharjee, Miha Pakusch, Matthew Lacorcia, Chris Y. Chiu, Xin Liu, Eleonora Tresoldi, Abby Foster, Laura King, Fergus J. Cameron, and Stuart I. Mannering

Subjects

clonal expansion, proliferation, CD4+ T cell, autoimmunity, antigen specific T cell, C-peptide, Immunologic diseases. Allergy, RC581-607

Abstract

Antigen-driven T-cell proliferation is often measured using fluorescent dye dilution assays, such as the CFSE-based proliferation assay. Dye dilution assays have been powerful tools to detect human CD4+ T-cell responses, particularly against autoantigens. However, it is not known how many cells within the proliferating population are specific for the stimulating antigen. Here we determined the frequency of CD4+ T cells specific for the stimulating antigen within the antigen-responsive population of CFSE-based proliferation assays. We compared CD4+ T-cell responses to a type 1 diabetes autoantigen (proinsulin C-peptide) and to a vaccine antigen (tetanus toxoid). The TCRs expressed by antigen-responsive CD4+ T cells were sequenced, and their antigen specificity was tested functionally by expressing them in a reporter T-cell line. Responses to C-peptide were weak, but detectable, in PBMC from individuals with T1D, whereas responses to tetanus toxoid were much stronger. The frequency of antigen-specific CD4+ T cells correlated with the strength of the response to antigen in the proliferation assay. However, antigen-specific CD4+ T cells were rare among antigen-responsive CD4+ T cells. For C-peptide, an average frequency of 7.5% (1%–11%, n = 4) of antigen-responsive CD4+ T cells were confirmed to be antigen specific. In the tetanus-toxoid-stimulated cultures, on average, 45% (16%–78%, n = 5) of the antigen-responsive CD4+ T cells were tetanus toxoid specific. These data show that antigen-specific CD4+ T cells are a minority of the cells that proliferate in response to antigen and have important implications for in vitro CD4+ T-cell proliferation assays.

Published

2024

12. The longitudinal kinetics of AAV5 vector integration profiles and evaluation of clonal expansion in mice

Author

Ashrafali Mohamed Ismail, Evan Witt, Taren Bouwman, Wyatt Clark, Bridget Yates, Matteo Franco, and Sylvia Fong

Subjects

AAV5, AAV5-hFVIII-SQ, vector integration, target enrichment sequencing, common integration site, clonal expansion, Genetics, QH426-470, Cytology, QH573-671

Abstract

Adeno-associated virus (AAV)-based vectors are used clinically for gene transfer and persist as extrachromosomal episomes. A small fraction of vector genomes integrate into the host genome, but the theoretical risk of tumorigenesis depends on vector regulatory features. A mouse model was used to investigate integration profiles of an AAV serotype 5 (AAV5) vector produced using Sf and HEK293 cells that mimic key features of valoctocogene roxaparvovec (AAV5-hFVIII-SQ), a gene therapy for severe hemophilia A. The majority (95%) of vector genome reads were derived from episomes, and mean (± standard deviation) integration frequency was 2.70 ± 1.26 and 1.79 ± 0.86 integrations per 1,000 cells for Sf- and HEK293-produced vector. Longitudinal integration analysis suggested integrations occur primarily within 1 week, at low frequency, and their abundance was stable over time. Integration profiles were polyclonal and randomly distributed. No major differences in integration profiles were observed for either vector production platform, and no integrations were associated with clonal expansion. Integrations were enriched near transcription start sites of genes highly expressed in the liver (p = 1 × 10−4) and less enriched for genes of lower expression. We found no evidence of tumorigenesis or fibrosis caused by the vector integrations.

Published

2024

13. A nanowell platform to identify, sort and expand high antibody-producing cells

Author

Fikri Abali, Richard Schasfoort, Sanne Nijland, Jelle Wittenberns, Arjan. G. J. Tibbe, Marcel den Hartog, Louis Boon, and Leon W. M. M. Terstappen

Subjects

Nanowell chip, CHO cells, Single-cell analysis, Antibody secretion, Clonal expansion, Medicine, Science

Abstract

Abstract Increased use of therapeutic monoclonal antibodies and the relatively high manufacturing costs fuel the need for more efficient production methods. Here we introduce a novel, fast, robust, and safe isolation platform for screening and isolating antibody-producing cell lines using a nanowell chip and an innovative single-cell isolation method. An anti-Her2 antibody producing CHO cell pool was used as a model. The platform; (1) Assures the single-cell origin of the production clone, (2) Detects the antibody production of individual cells and (3) Isolates and expands the individual cells based on their antibody production. Using the nanowell platform we demonstrated an 1.8–4.5 increase in anti-Her2 production by CHO cells that were screened and isolated with the nanowell platform compared to CHO cells that were not screened. This increase was also shown in Fed-Batch cultures where selected high production clones showed titers of 19–100 mg/L on harvest day, while the low producer cells did not show any detectable anti-Her2 IgG production. The screening of thousands of single cells is performed under sterile conditions and the individual cells were cultured in buffers and reagents without animal components. The time required from seeding a single cell and measuring the antibody production to fully expanded clones with increased Her-2 production was 4–6 weeks.

Published

2024

14. Cancer Represents Dysfunctions of Stem Cells Rather than Misbehavior of Differentiated Cells.

Author

Bhartiya, Deepa

Subjects

*CANCER stem cells, *STEROID receptors, *ENDOCRINE disruptors, *STEM cells, *LYSIS

Abstract

This document discusses the contradictory views on the underlying mechanisms of cancer initiation. One review argues that cancer can initiate from differentiated cells in the absence of stem cells, while another review argues that cancer represents dysfunctions of tissue-resident stem cells. The controversy revolves around the presence of stem cells in adult tissues. The document highlights the existence of very small embryonic-like stem cells (VSELs) in all adult tissues, including the liver, kidney, and pancreas. These VSELs are responsible for initiating various pathologies, including cancer. The document suggests that a consensus on the cell of origin for cancer is necessary to understand metastasis and relapse, which account for the majority of cancer-related deaths. It also proposes using epigenetic drugs to reverse cancer stem cells back to VSELs to achieve a cure for cancer. [Extracted from the article]

Published

2024

15. Pancreatic cancer acquires resistance to MAPK pathway inhibition by clonal expansion and adaptive DNA hypermethylation

Author

Godfrey, Laura K., Forster, Jan, Liffers, Sven-Thorsten, Schröder, Christopher, Köster, Johannes, Henschel, Leonie, Ludwig, Kerstin U., Lähnemann, David, Trajkovic-Arsic, Marija, Behrens, Diana, Scarpa, Aldo, Lawlor, Rita T., Witzke, Kathrin E., Sitek, Barbara, Johnsen, Steven A., Rahmann, Sven, Horsthemke, Bernhard, Zeschnigk, Michael, and Siveke, Jens T.

Published

2024

16. Gene-specific somatic epigenetic mosaicism of FDFT1 underlies a non-hereditary localized form of porokeratosis.

Author

Saito, Sonoko, Saito, Yuki, Sato, Showbu, Aoki, Satomi, Fujita, Harumi, Ito, Yoshihiro, Ono, Noriko, Funakoshi, Takeru, Kawai, Tomoko, Suzuki, Hisato, Sasaki, Takashi, Tanaka, Tomoyo, Inoie, Masukazu, Hata, Kenichiro, Kataoka, Keisuke, Kosaki, Kenjiro, Amagai, Masayuki, Nakabayashi, Kazuhiko, and Kubo., Akiharu

Subjects

*MOSAICISM, *EPIGENETICS, *MOSAIC viruses, *STATINS (Cardiovascular agents), *CELL growth, *KERATINIZATION, KERATINOCYTE differentiation

Abstract

Porokeratosis is a clonal keratinization disorder characterized by solitary, linearly arranged, or generally distributed multiple skin lesions. Previous studies showed that genetic alterations in MVK , PMVK , MVD , or FDPS —genes in the mevalonate pathway—cause hereditary porokeratosis, with skin lesions harboring germline and lesion-specific somatic variants on opposite alleles. Here, we identified non-hereditary porokeratosis associated with epigenetic silencing of FDFT1 , another gene in the mevalonate pathway. Skin lesions of the generalized form had germline and lesion-specific somatic variants on opposite alleles in FDFT1 , representing FDFT1 -associated hereditary porokeratosis identified in this study. Conversely, lesions of the solitary or linearly arranged localized form had somatic bi-allelic promoter hypermethylation or mono-allelic promoter hypermethylation with somatic genetic alterations on opposite alleles in FDFT1 , indicating non-hereditary porokeratosis. FDFT1 localization was uniformly diminished within the lesions, and lesion-derived keratinocytes showed cholesterol dependence for cell growth and altered expression of genes related to cell-cycle and epidermal development, confirming that lesions form by clonal expansion of FDFT1-deficient keratinocytes. In some individuals with the localized form, gene-specific promoter hypermethylation of FDFT1 was detected in morphologically normal epidermis adjacent to methylation-related lesions but not distal to these lesions, suggesting that asymptomatic somatic epigenetic mosaicism of FDFT1 predisposes certain skin areas to the disease. Finally, consistent with its genetic etiology, topical statin treatment ameliorated lesions in FDFT1-deficient porokeratosis. In conclusion, we identified bi-allelic genetic and/or epigenetic alterations of FDFT1 as a cause of porokeratosis and shed light on the pathogenesis of skin mosaicism involving clonal expansion of epigenetically altered cells. [Display omitted] We identified a skin disease associated with gene-specific epigenetic mosaicism. Biallelic genetic alterations and/or promoter hypermethylation of FDFT1 cause porokeratosis, a clonal keratinization disorder. While germline variants underlie hereditary porokeratosis, epigenetic silencing in a mosaic manner causes non-hereditary porokeratosis, predisposing specific skin areas to the disease. [ABSTRACT FROM AUTHOR]

Published

2024

17. A nanowell platform to identify, sort and expand high antibody-producing cells.

Author

Abali, Fikri, Schasfoort, Richard, Nijland, Sanne, Wittenberns, Jelle, Tibbe, Arjan. G. J., den Hartog, Marcel, Boon, Louis, and Terstappen, Leon W. M. M.

Abstract

Increased use of therapeutic monoclonal antibodies and the relatively high manufacturing costs fuel the need for more efficient production methods. Here we introduce a novel, fast, robust, and safe isolation platform for screening and isolating antibody-producing cell lines using a nanowell chip and an innovative single-cell isolation method. An anti-Her2 antibody producing CHO cell pool was used as a model. The platform; (1) Assures the single-cell origin of the production clone, (2) Detects the antibody production of individual cells and (3) Isolates and expands the individual cells based on their antibody production. Using the nanowell platform we demonstrated an 1.8–4.5 increase in anti-Her2 production by CHO cells that were screened and isolated with the nanowell platform compared to CHO cells that were not screened. This increase was also shown in Fed-Batch cultures where selected high production clones showed titers of 19–100 mg/L on harvest day, while the low producer cells did not show any detectable anti-Her2 IgG production. The screening of thousands of single cells is performed under sterile conditions and the individual cells were cultured in buffers and reagents without animal components. The time required from seeding a single cell and measuring the antibody production to fully expanded clones with increased Her-2 production was 4–6 weeks. [ABSTRACT FROM AUTHOR]

Published

2024

18. Terminally differentiated cytotoxic CD4+ T cells were clonally expanded in the brain lesion of radiation‐induced brain injury.

Author

Ma, Xueying, Zuo, You, Hu, Xia, Chen, Sitai, Zhong, Ke, Xue, Ruiqi, Gui, Shushu, Liu, Kejia, Li, Shaojian, Zhu, Xiaoqiu, Yang, Jingwen, Deng, Zhenhong, Liu, Xiaolu, Xu, Yongteng, Liu, Sheng, Shi, Zhongshan, Zhou, Meijuan, and Tang, Yamei

Subjects

*CYTOTOXIC T cells, *BRAIN damage, *BRAIN injuries, *T cells, *CHEMOKINE receptors

Abstract

Background: Accumulating evidence supports the involvement of adaptive immunity in the development of radiation‐induced brain injury (RIBI). Our previous work has emphasized the cytotoxic function of CD8+ T cells in RIBI. In this study, we aimed to investigate the presence and potential roles of cytotoxic CD4+ T cells (CD4+ CTLs) in RIBI to gain a more comprehensive understanding of adaptive immunity in this context. Main Text: Utilizing single‐cell RNA sequencing (scRNA‐seq), we analyzed 3934 CD4+ T cells from the brain lesions of four RIBI patients and identified six subclusters within this population. A notable subset, the cytotoxic CD4+ T cells (CD4+ CTLs), was marked with high expression of cytotoxicity‐related genes (NKG7, GZMH, GNLY, FGFBP2, and GZMB) and several chemokine and chemokine receptors (CCL5, CX3CR1, and CCL4L2). Through in‐depth pseudotime analysis, which simulates the development of CD4+ T cells, we observed that the CD4+ CTLs exhibited signatures of terminal differentiation. Their functions were enriched in protein serine/threonine kinase activity, GTPase regulator activity, phosphoprotein phosphatase activity, and cysteine‐type endopeptidase activity involved in the apoptotic signaling pathway. Correspondingly, mice subjected to gamma knife irradiation on the brain showed a time‐dependent infiltration of CD4+ T cells, an increase of MHCII+ cells, and the existence of CD4+ CTLs in lesions, along with an elevation of apoptotic‐related proteins. Finally, and most crucially, single‐cell T‐cell receptor sequencing (scTCR‐seq) analysis at the patient level determined a large clonal expansion of CD4+ CTLs in lesion tissues of RIBI. Transcriptional factor‐encoding genes TBX21, RORB, and EOMES showed positive correlations with the cytotoxic functions of CD4+ T cells, suggesting their potential to distinguish RIBI‐related CD4+ CTLs from other subsets. Conclusion: The present study enriches the understanding of the transcriptional landscape of adaptive immune cells in RIBI patients. It provides the first description of a clonally expanded CD4+ CTL subset in RIBI lesions, which may illuminate new mechanisms in the development of RIBI and offer potential biomarkers or therapeutic targets for the disease. [ABSTRACT FROM AUTHOR]

Published

2024

19. Bone Marrow-Derived Alk1 Mutant Endothelial Cells and Clonally Expanded Somatic Alk1 Mutant Endothelial Cells Contribute to the Development of Brain Arteriovenous Malformations in Mice.

Author

Shaligram, Sonali S, Zhang, Rui, Zhu, Wan, Ma, Li, Luo, Man, Li, Qiang, Weiss, Miriam, Arnold, Thomas, Santander, Nicolas, Liang, Rich, do Prado, Leandro, Tang, Chaoliang, Pan, Felix, Oh, S Paul, Pan, Peipei, and Su, Hua

Subjects

Brain, Endothelial Cells, Bone Marrow, Animals, Mice, Intracranial Arteriovenous Malformations, Disease Models, Animal, Tamoxifen, Activin Receptors, Type II, Vascular Endothelial Growth Factor A, Endoglin, Alk1, Arteriovenous malformation, Bone marrow derived endothelial cells, Clonal expansion, Endothelial cells, Neurosciences, Genetics, Hematology, Pediatric, Clinical Sciences, Public Health and Health Services

Abstract

We have previously demonstrated that deletion of activin receptor-like kinase 1 (Alk1) or endoglin in a fraction of endothelial cells (ECs) induces brain arteriovenous malformations (bAVMs) in adult mice upon angiogenic stimulation. Here, we addressed three related questions: (1) could Alk1- mutant bone marrow (BM)-derived ECs (BMDECs) cause bAVMs? (2) is Alk1- ECs clonally expended during bAVM development? and (3) is the number of mutant ECs correlates to bAVM severity? For the first question, we transplanted BM from PdgfbiCreER;Alk12f/2f mice (EC-specific tamoxifen-inducible Cre with Alk1-floxed alleles) into wild-type mice, and then induced bAVMs by intra-brain injection of an adeno-associated viral vector expressing vascular endothelial growth factor and intra-peritoneal injection of tamoxifen. For the second question, clonal expansion was analyzed using PdgfbiCreER;Alk12f/2f;confetti+/- mice. For the third question, we titrated tamoxifen to limit Alk1 deletion and compared the severity of bAVM in mice treated with low and high tamoxifen doses. We found that wild-type mice with PdgfbiCreER;Alk12f/2f BM developed bAVMs upon VEGF stimulation and Alk1 gene deletion in BMDECs. We also observed clusters of ECs expressing the same confetti color within bAVMs and significant proliferation of Alk1- ECs at early stage of bAVM development, suggesting that Alk1- ECs clonally expanded by local proliferation. Tamoxifen dose titration revealed a direct correlation between the number of Alk1- ECs and the burden of dysplastic vessels in bAVMs. These results provide novel insights for the understanding of the mechanism by which a small fraction of Alk1 or endoglin mutant ECs contribute to development of bAVMs.

Published

2022

20. Investigating the mechanisms underlying the heterogeneous VSMC contribution to vascular disease

Author

Worssam, Matthew and Jorgensen, Helle

Subjects

Cardiovascular Disease, Atherosclerosis, Vascular Smooth Muscle Cell, Clonal Expansion, Myocardin, Lineage-Tracing, Confocal Microscopy, ATAC-seq

Abstract

In healthy blood vessels, vascular smooth muscle cells (VSMCs) exist in a contractile, quiescent state but upon vascular insult can switch phenotype to activate proliferation, migration and remodelling of the extracellular matrix. Phenotypically switched VSMCs contribute most cells within neointimal lesions, characteristic of atherosclerosis and in-stent restenosis, diseases that underlie heart attack and stroke. Using multicolour "Confetti" VSMC-specific lineage tracing in animal models of vascular disease, our lab and others have shown that the extensive VSMC contribution to these lesions results from the clonal expansion of few cells. To understand how oligoclonal VSMC lesion contribution arises and to identify the signals activating VSMC proliferation in vivo, I used quantified VSMC clonal development over time in two models of vascular disease. Following acute vascular injury, the number and sizes of patches of clonally expanded VSMCs steadily increased before reaching a plateau, suggesting rare activation of VSMC proliferation in few cells, rather than clonal competition following widespread VSMC activation. Interestingly, only a subset of medial patches gave rise to neointimal patches, suggesting that VSMC lesion invasion represents a second selective event underlying mature lesion oligoclonality. Infrequent activation of VSMC proliferation in atherosclerosis was evidenced by the absence of plaques with high numbers of colours at any stage of plaque development. Tamoxifen-inducible, VSMC-specific deletion of contractile master regulator Myocd in adult mice had modest phenotypic effects on baseline VSMC contractile marker expression, and on injury-induced VSMC transcriptional response and clonality. In both vascular disease models, VSMC activation was greatly enriched in vascular regions displaying elastic lamina alterations, medial acellularity and immune cell recruitment, implicating these as potential proliferation-inducing cues. However, not all VSMCs in these regions formed patches, suggesting that VSMCs must be primed to respond proliferatively. Consistent with the hypothesis that VSMCs marked by stem cell antigen-1 (SCA1) may represent such a primed population, profiling of chromatin accessibility in SCA1+ VSMCs revealed substantial opening of chromatin at genes showing increased expression in injury-activated compared to healthy VSMCs. Manipulation of RUNX1 and CEBP, transcription factors whose motifs were enriched at activation-specific open chromatin regions, could allow for control of VSMC priming and proliferation.

Published

2022

21. HPV oncogenes expressed from only one of multiple integrated HPV DNA copies drive clonal cell expansion in cervical cancer

Author

Lulu Yu, Vladimir Majerciak, Alexei Lobanov, Sameer Mirza, Vimla Band, Haibin Liu, Maggie Cam, Stephen H. Hughes, Douglas R. Lowy, and Zhi-Ming Zheng

Subjects

human papillomavirus, integration, oncogene expression, carcinogenesis, clonal expansion, Microbiology, QR1-502

Abstract

ABSTRACTThe integration of HPV DNA into human chromosomes plays a pivotal role in the onset of papillomavirus-related cancers. HPV DNA integration often occurs by linearizing the viral DNA in the E1/E2 region, resulting in the loss of a critical viral early polyadenylation signal (PAS), which is essential for the polyadenylation of the E6E7 bicistronic transcripts and for the expression of the viral E6 and E7 oncogenes. Here, we provide compelling evidence that, despite the presence of numerous integrated viral DNA copies, virus-host fusion transcripts originate from only a single integrated HPV DNA in HPV16 and HPV18 cervical cancers and cervical cancer-derived cell lines. The host genomic elements neighboring the integrated HPV DNA are critical for the efficient expression of the viral oncogenes that leads to clonal cell expansion. The fusion RNAs that are produced use a host RNA polyadenylation signal downstream of the integration site, and almost all involve splicing to host sequences. In cell culture, siRNAs specifically targeting the host portion of the virus-host fusion transcripts effectively silenced viral E6 and E7 expression. This, in turn, inhibited cell growth and promoted cell senescence in HPV16+ CaSki and HPV18+ HeLa cells. Showing that HPV E6 and E7 expression from a single integration site is instrumental in clonal cell expansion sheds new light on the mechanisms of HPV-induced carcinogenesis and could be used for the development of precision medicine tailored to combat HPV-related malignancies.IMPORTANCEPersistent oncogenic HPV infections lead to viral DNA integration into the human genome and the development of cervical, anogenital, and oropharyngeal cancers. The expression of the viral E6 and E7 oncogenes plays a key role in cell transformation and tumorigenesis. However, how E6 and E7 could be expressed from the integrated viral DNA which often lacks a viral polyadenylation signal in the cancer cells remains unknown. By analyzing the integrated HPV DNA sites and expressed HPV RNAs in cervical cancer tissues and cell lines, we show that HPV oncogenes are expressed from only one of multiple chromosomal HPV DNA integrated copies. A host polyadenylation signal downstream of the integrated viral DNA is used for polyadenylation and stabilization of the virus-host chimeric RNAs, making the oncogenic transcripts targetable by siRNAs. This observation provides further understanding of the tumorigenic mechanism of HPV integration and suggests possible therapeutic strategies for the development of precision medicine for HPV cancers.

Published

2024

22. Exploring FGFR3 Mutations in the Male Germline: Implications for Clonal Germline Expansions and Paternal Age-Related Dysplasias.

Author

Moura, Sofia, Hartl, Ingrid, Brumovska, Veronika, Calabrese, Peter P, Yasari, Atena, Striedner, Yasmin, Bishara, Marina, Mair, Theresa, Ebner, Thomas, Schütz, Gerhard J, Sevcsik, Eva, and Tiemann-Boege, Irene

Subjects

*DYSPLASIA, *GONADS, *GERM cells, *GENETIC mutation, *SPERM donation, *POLYMERASE chain reaction, *MOSAICISM

Abstract

Delayed fatherhood results in a higher risk of inheriting a new germline mutation that might result in a congenital disorder in the offspring. In particular, some FGFR3 mutations increase in frequency with age, but there are still a large number of uncharacterized FGFR3 mutations that could be expanding in the male germline with potentially early- or late-onset effects in the offspring. Here, we used digital polymerase chain reaction to assess the frequency and spatial distribution of 10 different FGFR3 missense substitutions in the sexually mature male germline. Our functional assessment of the receptor signaling of the variants with biophysical methods showed that 9 of these variants resulted in a higher activation of the receptor´s downstream signaling, resulting in 2 different expansion behaviors. Variants that form larger subclonal expansions in a dissected postmortem testis also showed a positive correlation of the substitution frequency with the sperm donor's age, and a high and ligand-independent FGFR3 activation. In contrast, variants that measured high FGFR3 signaling and elevated substitution frequencies independent of the donor's age did not result in measurable subclonal expansions in the testis. This suggests that promiscuous signal activation might also result in an accumulation of mutations before the sexual maturation of the male gonad with clones staying relatively constant in size throughout time. Collectively, these results provide novel insights into our understanding of the mutagenesis of driver mutations and their resulting mosaicism in the male germline with important consequences for the transmission and recurrence of associated disorders. [ABSTRACT FROM AUTHOR]

Published

2024

23. HIV Expression in Infected T Cell Clones.

Author

Rausch, Jason W., Parvez, Shadab, Pathak, Sachi, Capoferri, Adam A., and Kearney, Mary F.

Subjects

*T cells, *CYTOTOXIC T cells, *GENE expression, *HIV, *CELL populations, *T cell receptors, *VIRAL genes, *CELL proliferation

Abstract

The principal barrier to an HIV-1 cure is the persistence of infected cells harboring replication-competent proviruses despite antiretroviral therapy (ART). HIV-1 transcriptional suppression, referred to as viral latency, is foremost among persistence determinants, as it allows infected cells to evade the cytopathic effects of virion production and killing by cytotoxic T lymphocytes (CTL) and other immune factors. HIV-1 persistence is also governed by cellular proliferation, an innate and essential capacity of CD4+ T cells that both sustains cell populations over time and enables a robust directed response to immunological threats. However, when HIV-1 infects CD4+ T cells, this capacity for proliferation can enable surreptitious HIV-1 propagation without the deleterious effects of viral gene expression in latently infected cells. Over time on ART, the HIV-1 reservoir is shaped by both persistence determinants, with selective forces most often favoring clonally expanded infected cell populations harboring transcriptionally quiescent proviruses. Moreover, if HIV latency is incomplete or sporadically reversed in clonal infected cell populations that are replenished faster than they are depleted, such populations could both persist indefinitely and contribute to low-level persistent viremia during ART and viremic rebound if treatment is withdrawn. In this review, select genetic, epigenetic, cellular, and immunological determinants of viral transcriptional suppression and clonal expansion of HIV-1 reservoir T cells, interdependencies among these determinants, and implications for HIV-1 persistence will be presented and discussed. [ABSTRACT FROM AUTHOR]

Published

2024

24. Phylogenetic Characterization of Salmonella enterica Serovar Typhimurium and its Monophasic Variant Isolated from Food Animals in Japan.

Author

Nobuo ARAI

Subjects

SALMONELLA enterica serovar typhimurium, FOOD of animal origin, FOOD animals, TANDEM repeats, MOBILE genetic elements, OPERONS, SALMONELLA typhimurium

Published

2024

25. T‐cell receptor sequencing reveals hepatocellular carcinoma immune characteristics according to Barcelona Clinic liver cancer stages within liver tissue and peripheral blood.

Author

Li, Rui, Wang, Junxiao, Li, Xiubin, Liang, Yining, Jiang, Yiyun, Zhang, Yuwei, Xu, Pengfei, Deng, Ling, Wang, Zhe, Sun, Tao, Wu, Jian, Xie, Hui, and Wang, Yijin

Abstract

Analysis of T‐cell receptor (TCR) repertoires in different stages of hepatocellular carcinoma (HCC) might help to elucidate its pathogenesis and progression. This study aimed to investigate TCR profiles in liver biopsies and peripheral blood mononuclear cells (PBMCs) in different Barcelona Clinic liver cancer (BCLC) stages of HCC. Ten patients in early stage (BCLC_A), 10 patients in middle stage (BCLC_B), and 10 patients in late stage (BCLC_C) cancer were prospectively enrolled. The liver tumor tissues, adjacent tissues, and PBMCs of each patient were collected and examined by TCR β sequencing. Based on the ImMunoGeneTics (IMGT) database, we aligned the V, D, J, and C gene segments and identified the frequency of CDR3 sequences and amino acids sequence. Diversity of TCR in PBMCs was higher than in both tumor tissues and adjacent tissues, regardless of BCLC stage and postoperative recurrence. TCR clonality was increased in T cells from peripheral blood in advanced HCC, compared with the early and middle stages. No statistical differences were observed between different BCLC stages, either in tumors or adjacent tissues. TCR clonality revealed no significant difference between recurrent tumor and non‐recurrent tumor, therefore PBMCs was better to be representative of TCR characteristics in different stages of HCC compared to tumor tissues. Clonal expansion of T cells was associated with low risk of recurrence in HCC patients. [ABSTRACT FROM AUTHOR]

Published

2024

26. Learning from Persistent Viremia: Mechanisms and Implications for Clinical Care and HIV-1 Cure.

Author

Wu, Fengting and Simonetti, Francesco R.

Abstract

Purpose of Review: In this review, we discuss what persistent viremia has taught us about the biology of the HIV-1 reservoir during antiretroviral therapy (ART). We will also discuss the implications of this phenomenon for HIV-1 cure research and its clinical management. Recent Findings: While residual viremia (RV, 1–3 HIV-1 RNA copies/ml) can be detected in most of people on ART, some individuals experience non-suppressible viremia (NSV, > 20–50 copies/mL) despite optimal adherence. When issues of drug resistance and pharmacokinetics are ruled out, this persistent virus in plasma is the reflection of virus production from clonally expanded CD4+ T cells carrying proviruses. Recent work has shown that a fraction of the proviruses source of NSV are not infectious, due to defects in the 5′-Leader sequence. However, additional viruses and host determinants of NSV are not fully understood. Summary: The study of NSV is of prime importance because it represents a challenge for the clinical care of people on ART, and it sheds light on virus-host interactions that could advance HIV-1 remission research. [ABSTRACT FROM AUTHOR]

Published

2023

27. T Cell Immunity: TCRs and Their Effector Functions

Author

Carlberg, Carsten, Velleuer, Eunike, Molnár, Ferdinand, Carlberg, Carsten, Velleuer, Eunike, and Molnár, Ferdinand

Published

2023

28. Granzyme B + CD8 + T cells with terminal differentiated effector signature determine multiple sclerosis progression

Author

Ziyan Shi, Xiaofei Wang, Jiancheng Wang, Hongxi Chen, Qin Du, Yanlin Lang, Lingyao Kong, Wenqin Luo, Yuhan Qiu, Ying Zhang, Chen Li, Dingke Wen, Jie Yao, Xia Cheng, Linjun Cai, Xue Lin, Rui Wang, Zichao Mou, Shuangjie Li, Duanya Liu, Hong Zhou, Hongyu Zhou, and Mu Yang

Subjects

Multiple sclerosis, Secondary progression, Single-cell RNA sequencing, CD8 + TEMRA cells, GzmB, Clonal expansion, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Multiple sclerosis (MS) leads to demyelination and neurodegeneration with autoimmune responses in central nervous system. Patients begin with a relapsing–remitting (RR) course, and more than 80% of them may advance to secondary progressive MS (SPMS), which is characteristic for the gradual decline of neurological functions without demonstrated treating method to prevent. This study aims to investigate the contribution of peripheral CD8 + T cells during the conversion from RRMS to SPMS, as well as reveal potential diagnostic signature in distinguishing SPMS. Methods Single-cell RNA sequencing was employed to reveal the heterogeneity of CD8 + T cells between SPMS and RRMS. In addition, flow cytometry was used to further characterized CD8 + T cell dynamic changes in patients. T cell receptor sequencing was performed to detect the clonal expansion of MS. Using Tbx21 siRNA, T-bet was confirmed to manipulate GzmB expression. The correlation between GzmB + CD8 + T cell subsets and clinical characteristics of MS and their potential diagnostic value for SPMS were evaluated by generalized linear regression models and receiver operating characteristic (ROC) curve respectively. Results Other than diminished naïve CD8 + T cell, elevating of activated CD8 + T cell subsets were observed in SPMS patients. Meanwhile, this aberrant amplified peripheral CD8 + T cells not only exhibited terminal differentiated effector (EMRA) phenotype with GzmB expression, but also possessed distinct trajectory from clonal expansion. In addition, T-bet acted as a key transcriptional factor that elicited GzmB expression in CD8 + TEMRA cells of patients with SPMS. Finally, the expression of GzmB in CD8 + T cells was positively correlated with disability and progression of MS, and could effectively distinguish SPMS from RRMS with a high accuracy. Conclusions Our study mapped peripheral immune cells of RRMS and SPMS patients and provided an evidence for the involvement of GzmB + CD8 + TEMRA cells in the progression of MS, which could be used as a diagnostic biomarker for distinguishing SPMS from RRMS.

Published

2023

29. A mean-field description for the expansion kinetics of activated T cell populations.

Author

Straube, Ronny and Schmidt, Brian J.

Subjects

*CELL populations, *T cells, *PARTIAL differential equations, *CELL division, *ANALYTICAL solutions

Abstract

When lymphocytes encounter their cognate antigen, they become activated and undergo a limited number of cell divisions during which they differentiate into memory or effector cells or die. While the dynamics of individual cells are often heterogeneous, the expansion kinetics at the population level are highly reproducible, suggesting a mean-field description. To generate a finite division destiny, we consider two scenarios: Cells stop dividing after a certain number of iterations or their death rate increases with each cell division. The dynamics of the combined system can be mapped to a partial differential equation, and for a suitable choice of the activation rate, we obtain simple analytical solutions for the total cell number and the mean number of divisions per cell which can well describe the signal-dependent T cell expansion kinetics from in vitro experiments. Interestingly, only the division cessation mechanism yields an expression for the division destiny that does not contradict experiments. We show that the generation-dependent decrease of the division rate in individual cells leads to a timedependent decrease at the population level which is consistent with a "time-to-die" control mechanism for the division destiny as suggested previously. We also derive mean-field equations for the total cell number which provide a basis for implementing T cell expansion kinetics into quantitative systems pharmacology models for immunooncology and CAR-T cell therapies. [ABSTRACT FROM AUTHOR]

Published

2023

30. Clonal expansion of intra‐epithelial T cells in breast cancer revealed by spatial transcriptomics.

Author

Romanens, Lou, Chaskar, Prasad, Marcone, Rachel, Ryser, Stephan, Tille, Jean‐Christophe, Genolet, Raphael, Heimgartner‐Hu, Ketty, Heimgartner, Killian, Moore, Jonathan S., Liaudet, Nicolas, Kaya, Gürkan, Pittet, Mikael J., Dietrich, Pierre‐Yves, Delorenzi, Mauro, Speiser, Daniel E., Harari, Alexandre, Tsantoulis, Petros, and Labidi‐Galy, Sana Intidhar

Subjects

T cells, CANCER cells, BREAST cancer, TRIPLE-negative breast cancer, B cells

Abstract

The spatial distribution of tumor‐infiltrating lymphocytes (TIL) predicts breast cancer outcome and response to systemic therapy, highlighting the importance of an intact tissue structure for characterizing tumors. Here, we present ST‐FFPE, a spatial transcriptomics method for the analysis of formalin‐fixed paraffin‐embedded samples, which opens the possibility of interrogating archival tissue. The method involves extraction, exome capture and sequencing of RNA from different tumor compartments microdissected by laser‐capture, and can be used to study the cellular composition of tumor microenvironment. Focusing on triple‐negative breast cancer (TNBC), we characterized T cells, B cells, dendritic cells, fibroblasts and endothelial cells in both stromal and intra‐epithelial compartments. We found a highly variable spatial distribution of immune cell subsets among tumors. This analysis revealed that the immune repertoires of intra‐epithelial T and B cells were consistently less diverse and more clonal than those of stromal T and B cells. T‐cell receptor (TCR) sequencing confirmed a reduced diversity and higher clonality of intra‐epithelial T cells relative to the corresponding stromal T cells. Analysis of the top 10 dominant clonotypes in the two compartments showed a majority of shared but also some unique clonotypes both in stromal and intra‐epithelial T cells. Hyperexpanded clonotypes were more abundant among intra‐epithelial than stromal T cells. These findings validate the ST‐FFPE method and suggest an accumulation of antigen‐specific T cells within tumor core. Because ST‐FFPE is applicable for analysis of previously collected tissue samples, it could be useful for rapid assessment of intratumoral cellular heterogeneity in multiple disease and treatment settings. [ABSTRACT FROM AUTHOR]

Published

2023

31. Mitogenome Variations in a Global Population of Aspergillus fumigatus.

Author

Thorn, Veronica and Xu, Jianping

Subjects

*ASPERGILLUS fumigatus, *PRINCIPAL components analysis, *SINGLE nucleotide polymorphisms, *WHOLE genome sequencing, *DISCRIMINANT analysis, *MITOCHONDRIA

Abstract

Aspergillus fumigatus is a ubiquitous, critical priority human fungal pathogen. Despite its clinical importance, there is limited knowledge regarding the variations of the genome within mitochondria, the powerhouse organelle within eukaryotic cells. In this study, we leveraged publicly available, raw, whole genome sequence data isolates from 1939 to investigate the variations in the mitochondrial genomes of A. fumigatus. These isolates were isolated from 22 countries on six continents, as well as from outer space and from within the International Space Station. In total, our analysis revealed 39 mitochondrial single nucleotide polymorphisms (mtSNPs) within this global sample, and, together, these 39 mtSNPs grouped the 1939 isolates into 79 mitochondrial multilocus genotypes (MLGs). Among the 79 MLGs, 39 were each distributed in at least two countries and 30 were each shared by at least two continents. The two most frequent MLGs were also broadly distributed: MLG11 represented 420 isolates from 11 countries and four continents and while MLG79 represented 418 isolates from 18 countries and five continents, consistent with long-distance dispersals of mitogenomes. Our population genetic analyses of the mtSNPs revealed limited differentiation among continental populations, but highly variable genetic differences among national populations, largely due to localized clonal expansions of different MLGs. Phylogenetic analysis and Discriminant Analysis of Principal Components of mtSNPs suggested the presence of at least three mitogenome clusters. Linkage disequilibrium, Index of Association, and phylogenetic incompatibility analyses collectively suggested evidence for mitogenome recombination in natural populations of A. fumigatus. In addition, sequence read depth analyses revealed an average ratio of ~20 mitogenomes per nuclear genome in this global population, but the ratios varied among strains within and between certain geographic populations. Together, our results suggest evidence for organelle dynamics, genetic differentiation, recombination, and both widespread and localized clonal expansion of the mitogenomes in the global A. fumigatus population. [ABSTRACT FROM AUTHOR]

Published

2023

32. PGT-A: Houston, we have a problem.

Author

Casper, Robert F.

Subjects

*BLASTOCYST, *EMBRYO transfer, *GENETIC testing, *HUMAN embryos, *MOSAICISM, *MISCARRIAGE

Abstract

Preimplantation genetic testing for aneuploidy (PGT-A) is a common add-on to IVF cycles. As it is presently performed, PGT-A relies on whole genome amplification of small amounts of DNA from cells removed from the trophectoderm (TE) of a blastocyst for determination of gain or loss of chromosomal material by next-generation sequencing. Whole genome amplification may introduce artifacts such as allele dropout and loss of heterozygosity in up to 25% of cases. In addition, the high prevalence of mosaicism in human embryos is a complicating factor in interpreting the results of PGT-A screening. In the presence of mosaicism, biopsy of TE cells cannot provide accurate results regarding the chromosomal make-up of the inner cell mass. The available clinical data suggest that PGT-A is probably harmful when IVF outcomes are analyzed by intention to treat or by live birth rate per cycle started rather than per embryo transfer, especially in women with three or fewer blastocysts. In addition, hypothesized advantages of reduced spontaneous abortion rate and reduced time to conception may be modest at best. [ABSTRACT FROM AUTHOR]

Published

2023

33. Are Ecosystem Engineering Traits Fixed or Flexible: A Study on Clonal Expansion Strategies in Co-occurring Dune Grasses.

Author

Lammers, Carlijn, van de Ven, Clea N., van der Heide, Tjisse, and Reijers, Valérie C.

Subjects

*SAND dunes, *GRASSES, *GRAIN size, *ECOSYSTEMS, *RIFLE-ranges, *ENGINEERING

Abstract

Many vegetated coastal ecosystems are formed through ecosystem engineering by clonal vegetation. Recent work highlights that the spatial shoot organization of the vegetation determines local sediment accretion and subsequently emerging landscape morphology. While this key engineering trait has been found to differ between species and prevailing environmental conditions, it remains unknown how the interplay of both factors drive shoot organization and therefore landscape morphology. Here, we compared the spatial shoot organization of young, clonally expanding plants of the two dominant European dune grass species: sand couch (Elytrigia juncea) and marram grass (Ammophila arenaria) across a range of coastal dune environments (from Denmark to France). Our results reveal that, on average, sand couch deployed a more dispersed shoot organization than marram grass, which has a patchy (Lévy-like) organization. Whereas sand couch exhibited the same expansion strategy independent of environmental conditions, marram grass demonstrated a large intraspecific variation which correlated to soil organic matter, temperature and grain size. Shoot patterns ranged from a clumped organization correlating to relatively high soil organic matter contents, temperature and small grain sizes, to a patchy configuration with intermediate conditions, and a dispersed organization with low soil organic matter, temperature and large grain size. We conclude that marram grass is flexible in adjusting its engineering capacity in response to environmental conditions, while sand couch instead follows a fixed expansion strategy, illustrating that shoot organization results from the interaction of both species-specific and environmental-specific trait expression. [ABSTRACT FROM AUTHOR]

Published

2023

34. Phenotypic analysis of the unstimulated in vivo HIV CD4 T cell reservoir.

Author

Neidleman, Jason, Luo, Xiaoyu, Frouard, Julie, Xie, Guorui, Hsiao, Feng, Ma, Tongcui, Morcilla, Vincent, Lee, Ashley, Telwatte, Sushama, Thomas, Reuben, Tamaki, Whitney, Wheeler, Benjamin, Hoh, Rebecca, Somsouk, Ma, Vohra, Poonam, Milush, Jeffrey, James, Katherine Sholtis, Archin, Nancie M, Hunt, Peter W, Deeks, Steven G, Yukl, Steven A, Palmer, Sarah, Greene, Warner C, and Roan, Nadia R

Subjects

CD4-Positive T-Lymphocytes, Humans, Proviruses, HIV-1, HIV Infections, Cell Separation, Immunophenotyping, Virus Latency, Mass Spectrometry, CyTOF, HIV, clonal expansion, human, infectious disease, microbiology, replication-competent reservoir, tissues, virus, Biochemistry and Cell Biology

Abstract

The latent reservoir is a major barrier to HIV cure. As latently infected cells cannot be phenotyped directly, the features of the in vivo reservoir have remained elusive. Here, we describe a method that leverages high-dimensional phenotyping using CyTOF to trace latently infected cells reactivated ex vivo to their original pre-activation states. Our results suggest that, contrary to common assumptions, the reservoir is not randomly distributed among cell subsets, and is remarkably conserved between individuals. However, reservoir composition differs between tissues and blood, as do cells successfully reactivated by different latency reversing agents. By selecting 8-10 of our 39 original CyTOF markers, we were able to isolate highly purified populations of unstimulated in vivo latent cells. These purified populations were highly enriched for replication-competent and intact provirus, transcribed HIV, and displayed clonal expansion. The ability to isolate unstimulated latent cells from infected individuals enables previously impossible studies on HIV persistence.

Published

2020

35. The etiology of clonal mosaicism in human aging and disease

Author

Sanne Massaar and Mathijs A. Sanders

Subjects

aging, cancer & DNA repair, clonal expansion, somatic mutation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Geriatrics, RC952-954.6

Abstract

Abstract Our DNA is consistently assaulted by a variety of intrinsic and extrinsic mutational factors. Fortunately, DNA repair provides for protective barriers that limit the full manifestation of DNA damage. Yet, DNA repair represents no panacea as DNA damage continuously slips through these erected defenses and materializes as mutation, which can have undesirable consequences as seen for cancer. Acquisition of early driver mutations can engender mutated stem cells with increased cellular fitness resulting in clonal expansion (CE) and increased risk of malignant disease. Tissue clonal mosaicism as observed in the elderly is therefore the natural outcome of continuous driver mutation acquisition in stem cells and their subsequent clonal outgrowth. Hence, a major emerging theme is that CE is an idiosyncrasy of the aging human tissue. This phenomenon can have diverse health consequences that we here divide into three categories: cancer, non‐cancer morbidity, and disease protection. This review outlines current day knowledge on clonal outgrowth, how it relates to health and aging, and how in the framework of DNA repair deficiencies these subjects are consolidated.

Published

2023

36. Molecular Studies for the Early Detection of Philadelphia-Negative Myeloproliferative Neoplasms.

Author

Stuckey, Ruth, Bilbao-Sieyro, Cristina, Segura-Díaz, Adrián, and Gómez-Casares, María Teresa

Subjects

*MYELOPROLIFERATIVE neoplasms, *GENOME-wide association studies, *HEMATOPOIESIS, *MOLECULAR pathology, *CARDIOLOGICAL manifestations of general diseases

Abstract

JAK2 V617F is the predominant driver mutation in patients with Philadelphia-negative myeloproliferative neoplasms (MPN). JAK2 mutations are also frequent in clonal hematopoiesis of indeterminate potential (CHIP) in otherwise "healthy" individuals. However, the period between mutation acquisition and MPN diagnosis (known as latency) varies widely between individuals, with JAK2 mutations detectable several decades before diagnosis and even from birth in some individuals. Here, we will review the current evidence on the biological factors, such as additional mutations and chronic inflammation, which influence clonal expansion and may determine why some JAK2-mutated individuals will progress to an overt neoplasm during their lifetime while others will not. We will also introduce several germline variants that predispose individuals to CHIP (as well as MPN) identified from genome-wide association studies. Finally, we will explore possible mutation screening or interventions that could help to minimize MPN-associated cardiovascular complications or even delay malignant progression. [ABSTRACT FROM AUTHOR]

Published

2023

37. Clonal composition and differentiation stage of human CD30+ B cells in reactive lymph nodes.

Author

Küppers, Ralf, Budeus, Bettina, Hartmann, Sylvia, and Hansmann, Martin-Leo

Subjects

B cells, B cell differentiation, LYMPH nodes, LYMPHADENITIS, HODGKIN'S disease

Abstract

Introduction: Normal CD30+ B cells represent a distinct B-cell differentiation stage with features of strong activation. We lack an in depth understanding of these cells, because they are not present in peripheral blood and are typically very rare in reactive lymphoid organs. CD30+ B cells have been discussed as a potential precursor population for the malignant CD30+ Hodgkin and Reed-Sternberg cells in classical Hodgkin lymphoma. As CD30+ B cells can be more numerous in some cases of reactive lymphadenitis, we aimed to characterize these CD30+ B cells in terms of their differentiation stage and clonal composition, also as a means to clarify whether such CD30+ B-cell populations may represent potential precursor lesions of Hodgkin lymphoma. Methods: We microdissected single CD30+ B cells from tissue sections of eight reactive lymph nodes with substantial numbers of such cells and sequenced their rearranged immunoglobulin (Ig) heavy chain V region (IGHV) genes. Results: The CD30+ B cells were polyclonal B cells in all instances, and they not only encompass post-germinal center (GC) B cells with mutated IGHV genes, but also include a substantial fraction of pre-germinal center B cells with unmutated IGHV genes. In five of the lymph nodes, mostly small clonal expansions were detected among the CD30+ B cells. Most of the expanded clones carried somatically mutated IGHV genes and about half of the mutated clones showed intraclonal diversity. Discussion: We conclude that in human reactive lymph nodes with relatively many CD30+ B cells, these cells are a heterogenous population of polyclonal B cells encompassing activated pre-GC B cells as well as GC and post-GC B cells, with some clonal expansions. Because of their polyclonality and frequent pre-GC differentiation stage, there is no indication that such cell-rich CD30+ B-cell populations represent precursor lesions of Hodgkin lymphoma. [ABSTRACT FROM AUTHOR]

Published

2023

38. Hepatocytes undergo punctuated expansion dynamics from a periportal stem cell niche in normal human liver.

Author

Passman, Adam M., Haughey, Magnus J., Carlotti, Emanuela, Williams, Marc J., Cereser, Bianca, Lin, Meng-Lay, Devkumar, Shruthi, Gabriel, Jonathan P., Gringeri, Enrico, Cillo, Umberto, Russo, Francesco Paolo, Hoare, Matthew, ChinAleong, Joanne, Jansen, Marnix, Wright, Nicholas A., Kocher, Hermant M., Huang, Weini, Alison, Malcolm R., and McDonald, Stuart A.C.

Subjects

*STEM cell niches, *LIVER cells, *BILE ducts, *LIVER histology, *LIVER, *DNA analysis, *LEBER'S hereditary optic atrophy, *PESTE des petits ruminants

Abstract

While normal human liver is thought to be generally quiescent, clonal hepatocyte expansions have been observed, though neither their cellular source nor their expansion dynamics have been determined. Knowing the hepatocyte cell of origin, and their subsequent dynamics and trajectory within the human liver will provide an important basis to understand disease-associated dysregulation. Herein, we use in vivo lineage tracing and methylation sequence analysis to demonstrate normal human hepatocyte ancestry. We exploit next-generation mitochondrial sequencing to determine hepatocyte clonal expansion dynamics across spatially distinct areas of laser-captured, microdissected, clones, in tandem with computational modelling in morphologically normal human liver. Hepatocyte clones and rare SOX9+ hepatocyte progenitors commonly associate with portal tracts and we present evidence that clones can lineage-trace with cholangiocytes, indicating the presence of a bipotential common ancestor at this niche. Within clones, we demonstrate methylation CpG sequence diversity patterns indicative of periportal not pericentral ancestral origins, indicating a portal to central vein expansion trajectory. Using spatial analysis of mitochondrial DNA variants by next-generation sequencing coupled with mathematical modelling and Bayesian inference across the portal-central axis, we demonstrate that patterns of mitochondrial DNA variants reveal large numbers of spatially restricted mutations in conjunction with limited numbers of clonal mutations. These datasets support the existence of a periportal progenitor niche and indicate that clonal patches exhibit punctuated but slow growth, then quiesce, likely due to acute environmental stimuli. These findings crucially contribute to our understanding of hepatocyte dynamics in the normal human liver. The liver is mainly composed of hepatocytes, but we know little regarding the source of these cells or how they multiply over time within the disease-free human liver. In this study, we determine a source of new hepatocytes by combining many different lab-based methods and computational predictions to show that hepatocytes share a common cell of origin with bile ducts. Both our experimental and computational data also demonstrate hepatocyte clones are likely to expand in slow waves across the liver in a specific trajectory, but often lie dormant for many years. These data show for the first time the expansion dynamics of hepatocytes in normal liver and their cell of origin enabling the accurate measurment of changes to their dynamics that may lead to liver disease. These findings are important for researchers determining cancer risk in human liver. [Display omitted] • Hepatocyte clonal expansions emanate from periportal origins in normal human livers. • Clonal hepatocyte expansions are more numerous with age. • Biliary epithelium and hepatocytes share a common somatic ancestor. • Clonal expansion in normal human liver is slow and/or punctuated. [ABSTRACT FROM AUTHOR]

Published

2023

39. Detection of Age-Related Somatic Alterations in Canine Blood Using Next-Generation Sequencing-Based Liquid Biopsy: An Analysis of over 4800 Dogs.

Author

Kruglyak, Kristina M., O'Kell, Allison L., Cohen, Todd A., Marshall, Maggie A., Ruiz-Perez, Carlos A., Marass, Francesco, Tynan, John A., Hicks, Susan C., Lytle, Katherine M., Phelps-Dunn, Ashley, Brandstetter, Gina, Warren, Chelsea D., DiMarzio, Lauren R., Rosentel, Michelle C., Wong, Lilian K., McLennan, Lisa M., Rafalko, Jill M., Grosu, Daniel S., Chibuk, Jason, and Chorny, Ilya

Subjects

LIQUID analysis, DNA copy number variations, PHENOMENOLOGICAL biology, DOGS, LEUKOCYTES, HEMATOPOIESIS

Abstract

Simple Summary: In humans there is a biological phenomenon known as CHIP (clonal hematopoiesis of indeterminate potential) in which somatic (acquired) mutations cause blood cells of a certain type to grow disproportionately by making many copies (or "clones") of themselves. Although most people who are found to have CHIP do not have cancer, they are known to be at higher risk of developing cancer. CHIP has been studied extensively in humans, where it occurs more frequently with increasing age and is thought to be present in 10–20% of people over the of age 70; however, CHIP has not been well-studied in other species. This study provides the first population-level evidence for the potential existence of CHIP-like findings in dogs. Further research is needed to determine the clinical significance of these findings in canine patients. Age-related somatic genomic alterations in hematopoietic cell lines have been well characterized in humans; however, this phenomenon has not been well studied in other species. Next-generation sequencing-based liquid biopsy testing for cancer detection was recently developed for dogs and has been used to study the genomic profiles of blood samples from thousands of canine patients since 2021. In this study, 4870 client-owned dogs with and without a diagnosis or suspicion of cancer underwent liquid biopsy testing by this method. Copy number variants detected exclusively in genomic DNA derived from white blood cells (WBC gDNA-specific CNVs) were observed in 126 dogs (2.6%; 95% CI: 2.2–3.1); these copy number variants were absent from matched plasma cell-free DNA, and from tumor tissue in dogs with concurrent cancer. These findings were more common in older dogs and were persistent in WBC gDNA in over 70% of patients, with little to no change in the amplitude of the signal across longitudinal samples. Many of these alterations were observed at recurrent locations in the genome across subjects; the most common finding was a partial loss on CFA25, typically accompanied by a partial gain on the same chromosome. These early findings suggest that age-related somatic alterations may be present at an appreciable frequency in the general canine population. Further research is needed to determine the clinical significance of these findings. [ABSTRACT FROM AUTHOR]

Published

2023

40. Picking up speed: cell cycle regulation during effector CD8+ T cell differentiation.

Author

Kretschmer, Lorenz, Fuchs, Noémie, Busch, Dirk H., and Buchholz, Veit R.

Subjects

*CELL cycle regulation, *T cell differentiation, *T cells, *IMMUNOLOGIC memory, *FATE mapping (Genetics), *CELL cycle, *T cell receptors

Abstract

Clonal expansion and development of immunological memory are two hallmarks of adaptive immune responses. Resolving the intricate pathways that regulate cell cycle activity and lead to the generation of diverse effector and memory T cell subsets is essential for improving our understanding of protective T cell immunity. A deeper knowledge of cell cycle regulation in T cells also has translational implications for adoptive cell therapies and vaccinations against infectious diseases. Here, we summarize recent evidence for an early diversification of effector and memory CD8+ T cell fates and discuss how this process is coupled to discrete changes in division speed. We further review technical advances in lineage tracing and cell cycle analysis and outline how these techniques have shed new light on the population dynamics of CD8+ T cell responses, thereby refining our current understanding of the developmental organization of the memory T cell pool. [ABSTRACT FROM AUTHOR]

Published

2023

41. Emergence and clonal expansion of Vibrio aestuarianus lineages pathogenic for oysters in Europe.

Author

Mesnil, Aurélie, Jacquot, Maude, Garcia, Céline, Tourbiez, Delphine, Canier, Lydie, Bidois, Audrey, Dégremont, Lionel, Cheslett, Deborah, Geary, Michelle, Vetri, Alessia, Roque, Ana, Furones, Dolors, Garden, Alison, Orozova, Petya, Arzul, Isabelle, Sicard, Mathieu, Charrière, Guillaume M., Destoumieux‐Garzón, Delphine, and Travers, Marie‐Agnès

Subjects

*OYSTERS, *CRASSOSTREA, *PACIFIC oysters, *VIBRIO, *COMPARATIVE genomics, *POPULATION genetics, *SHELLFISH fisheries, *AQUACULTURE

Abstract

Crassostrea gigas oysters represent a significant global food source with 4.7 million tons harvested per year. In 2001, the bacterium Vibrio aestuarianus subsp. francensis emerged as a pathogen that causes adult oyster mortality in France and Ireland. Its impact on oyster aquaculture has increased in Europe since its re‐emergence in 2012. To better understand the evolutionary mechanisms leading to the emergence and persistence over time of this pathogen, we conducted a survey of mollusc diseases through national reference laboratories across Europe. We analysed 54 new genomes of Vibrio aestuarianus (Va) isolated from multiple environmental compartments since 2001, in areas with and without bivalve mortalities. We used a combination of comparative genomics and population genetics approaches and show that Va has a classical epidemic population structure from which the pathogenic Va francensis subspecies emerged and clonally expanded. Furthermore, we identified a specific cus‐cop‐containing island conferring copper resistance to Va francensis whose acquisition may have favoured the emergence of pathogenic lineages adapted and specialized to oysters. [ABSTRACT FROM AUTHOR]

Published

2023

42. Granzyme B + CD8 + T cells with terminal differentiated effector signature determine multiple sclerosis progression.

Author

Shi, Ziyan, Wang, Xiaofei, Wang, Jiancheng, Chen, Hongxi, Du, Qin, Lang, Yanlin, Kong, Lingyao, Luo, Wenqin, Qiu, Yuhan, Zhang, Ying, Li, Chen, Wen, Dingke, Yao, Jie, Cheng, Xia, Cai, Linjun, Lin, Xue, Wang, Rui, Mou, Zichao, Li, Shuangjie, and Liu, Duanya

Subjects

T cells, CD8 antigen, MULTIPLE sclerosis, T cell receptors, GRANZYMES

Abstract

Background: Multiple sclerosis (MS) leads to demyelination and neurodegeneration with autoimmune responses in central nervous system. Patients begin with a relapsing–remitting (RR) course, and more than 80% of them may advance to secondary progressive MS (SPMS), which is characteristic for the gradual decline of neurological functions without demonstrated treating method to prevent. This study aims to investigate the contribution of peripheral CD8 + T cells during the conversion from RRMS to SPMS, as well as reveal potential diagnostic signature in distinguishing SPMS. Methods: Single-cell RNA sequencing was employed to reveal the heterogeneity of CD8 + T cells between SPMS and RRMS. In addition, flow cytometry was used to further characterized CD8 + T cell dynamic changes in patients. T cell receptor sequencing was performed to detect the clonal expansion of MS. Using Tbx21 siRNA, T-bet was confirmed to manipulate GzmB expression. The correlation between GzmB + CD8 + T cell subsets and clinical characteristics of MS and their potential diagnostic value for SPMS were evaluated by generalized linear regression models and receiver operating characteristic (ROC) curve respectively. Results: Other than diminished naïve CD8 + T cell, elevating of activated CD8 + T cell subsets were observed in SPMS patients. Meanwhile, this aberrant amplified peripheral CD8 + T cells not only exhibited terminal differentiated effector (EMRA) phenotype with GzmB expression, but also possessed distinct trajectory from clonal expansion. In addition, T-bet acted as a key transcriptional factor that elicited GzmB expression in CD8 + TEMRA cells of patients with SPMS. Finally, the expression of GzmB in CD8 + T cells was positively correlated with disability and progression of MS, and could effectively distinguish SPMS from RRMS with a high accuracy. Conclusions: Our study mapped peripheral immune cells of RRMS and SPMS patients and provided an evidence for the involvement of GzmB + CD8 + TEMRA cells in the progression of MS, which could be used as a diagnostic biomarker for distinguishing SPMS from RRMS. [ABSTRACT FROM AUTHOR]

Published

2023

43. T Cell Immunity: T Cell Receptors and Their Effector Functions

Author

Carlberg, Carsten, Velleuer, Eunike, Carlberg, Carsten, and Velleuer, Eunike

Published

2022

44. Computational Approaches for the Investigation of Intra-tumor Heterogeneity and Clonal Evolution from Bulk Sequencing Data in Precision Oncology Applications

Author

Laganà, Alessandro, Crusio, Wim E., Series Editor, Dong, Haidong, Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, Steinlein, Ortrud, Series Editor, Xiao, Junjie, Series Editor, and Laganà, Alessandro, editor

Published

2022

45. Lineage Tracing Models to Study Cardiomyocyte Generation During Cardiac Development and Injury

Author

Kolluri, Kamal, Zhou, Bin, Ardehali, Reza, Zhang, Jianyi, editor, and Serpooshan, Vahid, editor

Published

2022

46. Variation in cancer risk between organs can not be explained by the degree of somatic clonal expansion

Author

Zhang, Di, Zhang, Ao, He, Xionglei, and Deng, Shanjun

Published

2024

47. Broad Distribution of Hepatocyte Proliferation in Liver Homeostasis and Regeneration

Author

Chen, Feng, Jimenez, Robert J, Sharma, Khushbu, Luu, Hubert Y, Hsu, Bernadette Y, Ravindranathan, Ajay, Stohr, Bradley A, and Willenbring, Holger

Subjects

Medical Biotechnology, Biological Sciences, Biomedical and Clinical Sciences, Regenerative Medicine, Stem Cell Research - Nonembryonic - Non-Human, Digestive Diseases, Chronic Liver Disease and Cirrhosis, Stem Cell Research, Liver Disease, Genetics, Oral and gastrointestinal, Cell Proliferation, Hepatocytes, Homeostasis, Liver, Liver Regeneration, clonal expansion, hepatocyte, homeostasis, lineage tracing, liver, liver regeneration, liver stem cells, liver zonation, ploidy, regeneration, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences

Abstract

Hepatocyte proliferation is the principal mechanism for generating new hepatocytes in liver homeostasis and regeneration. Recent studies have suggested that this ability is not equally distributed among hepatocytes but concentrated in a small subset of hepatocytes acting like stem cells, located around the central vein or distributed throughout the liver lobule and exhibiting active WNT signaling or high telomerase activity, respectively. These findings were obtained by utilizing components of these growth regulators as markers for genetic lineage tracing. Here, we used random lineage tracing to localize and quantify clonal expansion of hepatocytes in normal and injured liver. We found that modest proliferation of hepatocytes distributed throughout the lobule maintains the hepatocyte mass and that most hepatocytes proliferate to regenerate it, with diploidy providing a growth advantage over polyploidy. These results show that the ability to proliferate is broadly distributed among hepatocytes rather than limited to a rare stem cell-like population.

Published

2020

48. Lineage Tracing Reveals a Subset of Reserve Muscle Stem Cells Capable of Clonal Expansion under Stress

Author

Scaramozza, Annarita, Park, Dongsu, Kollu, Swapna, Beerman, Isabel, Sun, Xuefeng, Rossi, Derrick J, Lin, Charles P, Scadden, David T, Crist, Colin, and Brack, Andrew S

Subjects

Medical Biotechnology, Biomedical and Clinical Sciences, Stem Cell Research - Nonembryonic - Non-Human, Stem Cell Research, Transplantation, Regenerative Medicine, Underpinning research, 1.1 Normal biological development and functioning, Adult Stem Cells, Animals, Cell Differentiation, Cell Lineage, Cell Survival, Clone Cells, DNA Damage, Humans, Mice, Mice, Inbred C57BL, Myxovirus Resistance Proteins, PAX3 Transcription Factor, PAX7 Transcription Factor, Radiation, Ionizing, Reactive Oxygen Species, Regeneration, Satellite Cells, Skeletal Muscle, Up-Regulation, Mx1, Pax3, ROS, clonal expansion, muscle stem cells, radiation, reserve stem cell, satellite cells, stress, tissue regeneration, Biological Sciences, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences

Abstract

Stem cell heterogeneity is recognized as functionally relevant for tissue homeostasis and repair. The identity, context dependence, and regulation of skeletal muscle satellite cell (SC) subsets remains poorly understood. We identify a minor subset of Pax7+ SCs that is indelibly marked by an inducible Mx1-Cre transgene in vivo, is enriched for Pax3 expression, and has reduced ROS (reactive oxygen species) levels. Mx1+ SCs possess potent stem cell activity upon transplantation but minimally contribute to endogenous muscle repair, due to their relative low abundance. In contrast, a dramatic clonal expansion of Mx1+ SCs allows extensive contribution to muscle repair and niche repopulation upon selective pressure of radiation stress, consistent with reserve stem cell (RSC) properties. Loss of Pax3 in RSCs increased ROS content and diminished survival and stress tolerance. These observations demonstrate that the Pax7+ SC pool contains a discrete population of radiotolerant RSCs that undergo clonal expansion under severe stress.

Published

2019

49. Visualization of clonal expansion after massive depletion of cells carrying the bovine leukemia virus (BLV) integration sites during the course of disease progression in a BLV naturally-infected cow: a case report

Author

Susumu Saito, Kazuyoshi Hosomichi, Meripet Polat Yamanaka, Tetsuya Mizutani, Shin-nosuke Takeshima, and Yoko Aida

Subjects

Bovine leukemia virus, Integration, Provirus, Target enrichment high throughput sequencing system, Massive depletion, Clonal expansion, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Bovine leukemia virus (BLV) infects cattle, integrates into host DNA as a provirus, and induces malignant B-cell lymphoma. Previous studies have addressed the impact of proviral integration of BLV on BLV-induced leukemogenesis. However, no studies have monitored sequential changes in integration sites in which naturally infected BLV individuals progress from the premalignant stage to the terminal disease. Here, we collected blood samples from a single, naturally infected Holstein cow at three disease progression stages (Stage I: polyclonal stage, Stage II: polyclonal toward oligoclonal stage, Stage III: oligoclonal stage) and successfully visualized the kinetics of clonal expansion of cells carrying BLV integration sites using our BLV proviral DNA-capture sequencing method. Although 24 integration sites were detected in Stages I and II, 92% of these sites experienced massive depletion in Stage III. Of these sites, 46%, 37%, and 17% were located within introns of Refseq genes, intergenic regions, and repetitive sequences, respectively. At Stage III cattle with lymphoma, only two integration sites were generated de novo in the intergenic region of Chr1, and the intron of the CHEK2 gene on Chr17 was significantly increased. Our results are the first to demonstrate clonal expansion after the massive depletion of cells carrying BLV integration sites in a naturally infected cow.

Published

2022

50. Mechanisms of fibrous cap formation in atherosclerosis

Author

Laura Alonso-Herranz, Julián Albarrán-Juárez, and Jacob Fog Bentzon

Subjects

fibrous cap, atherosclerosis, plaque rupture, smooth muscle cells, clonal expansion, neomedia, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

The fibrous cap is formed by smooth muscle cells that accumulate beneath the plaque endothelium. Cap rupture is the main cause of coronary thrombosis, leading to infarction and sudden cardiac death. Therefore, the qualities of the cap are primary determinants of the clinical outcome of coronary and carotid atherosclerosis. In this mini-review, we discuss current knowledge about the formation of the fibrous cap, including cell recruitment, clonal expansion, and central molecular signaling pathways. We also examine the differences between mouse and human fibrous caps and explore the impact of anti-atherosclerotic therapies on the state of the fibrous cap. We propose that the cap should be understood as a neo-media to substitute for the original media that becomes separated from the surface endothelium during atherogenesis and that embryonic pathways involved in the development of the arteria media contribute to cap formation.

Published

2023