Neff Nf scite author profile

Aging is the single greatest cause of disease and death worldwide, and so understanding the associated processes could vastly improve quality of life. While the field has identified major categories of aging damage such as altered intercellular communication, loss of proteostasis, and eroded mitochondrial function 1 , these deleterious processes interact with extraordinary complexity within and between organs. Yet, a comprehensive analysis of aging dynamics organism-wide is lacking. Here we performed RNA-sequencing of 17 organs and plasma proteomics at 10 ages across the mouse lifespan. We uncover previously unknown linear and non-linear expression shifts during aging, which cluster in strikingly consistent trajectory groups with coherent biological functions, including extracellular matrix regulation, unfolded protein binding, mitochondrial function, and inflammatory and immune response. Remarkably, these gene sets are expressed similarly across tissues, differing merely in age of onset and amplitude. Especially pronounced is widespread immune cell activation, detectable first in white adipose depots in middle age. Single-cell RNA-sequencing confirms the accumulation of adipose T and B cells, including immunoglobulin J-expressing plasma cells, which also accrue concurrently across diverse organs. Finally, we show how expression shifts in distinct tissues are highly correlated with corresponding protein levels in plasma, thus potentially contributing to aging of the systemic circulation. Together, these data demonstrate a similar yet asynchronous inter-and intra-organ progression of aging, thereby providing a foundation to track systemic sources of declining health at old age.

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Single-cell transcriptomic characterization of 20 organs and tissues from individual mice creates a Tabula Muris

Schaum

Karkanias²,

Nf³

et al. 2017

Preprint

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The Tabula Muris ConsortiumWe have created a compendium of single cell transcriptome data from the model organism Mus musculus comprising more than 100,000 cells from 20 organs and tissues. These data represent a new resource for cell biology, revealing gene expression in poorly characterized cell populations and allowing for direct and controlled comparison of gene expression in cell types shared between tissues, such as T-lymphocytes and endothelial cells from distinct anatomical locations. Two distinct technical approaches were used for most tissues: one approach, microfluidic droplet-based 3’-end counting, enabled the survey of thousands of cells at relatively low coverage, while the other, FACS-based full length transcript analysis, enabled characterization of cell types with high sensitivity and coverage. The cumulative data provide the foundation for an atlas of transcriptomic cell biology.

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Ageing compromises mouse thymus function and remodels epithelial cell differentiation

Baran-Gale

Morgan

Maio

et al. 2020

Preprint

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15Ageing is characterised by cellular senescence, leading to imbalanced tissue maintenance, cell 16 death and compromised organ function. This is first observed in the thymus, the primary 17 lymphoid organ that generates and selects T cells. However, the molecular and cellular 18 mechanisms underpinning these ageing processes remain unclear. Here, we show that mouse 19 ageing leads to less efficient T cell selection, decreased self-antigen representation and 20 increased T cell receptor repertoire diversity. Using a combination of single-cell RNA-seq and 21 lineage-tracing, we find that progenitor cells are the principal targets of ageing, whereas the 22 function of mature thymic epithelial cells is compromised only modestly. Specifically, an early-23 life precursor cell population, retained in the mouse cortex postnatally, is virtually extinguished 24 at puberty. Concomitantly, a medullary precursor cell quiesces, thereby impairing maintenance 25 2 of the medullary epithelium. Thus, ageing disrupts thymic progenitor differentiation and impairs 26 the core immunological functions of the thymus. 27 28

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Molecular hallmarks of heterochronic parabiosis at single cell resolution

Pálovics¹,

Keller

Schaum³

et al. 2020

Preprint

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Slowing or reversing biological ageing would have major implications for mitigating disease risk and maintaining vitality. While an increasing number of interventions show promise for rejuvenation, the effectiveness on disparate cell types across the body and the molecular pathways susceptible to rejuvenation remain largely unexplored. We performed single-cell RNA-sequencing on 13 organs to reveal cell type specific responses to young or aged blood in heterochronic parabiosis. Adipose mesenchymal stromal cells, hematopoietic stem cells, hepatocytes, and endothelial cells from multiple tissues appear especially responsive. On the pathway level, young blood invokes novel gene sets in addition to reversing established ageing patterns, with the global rescue of genes encoding electron transport chain subunits pinpointing a prominent role of mitochondrial function in parabiosis-mediated rejuvenation. Intriguingly, we observed an almost universal loss of gene expression with age that is largely mimicked by parabiosis: aged blood reduces global gene expression, and young blood restores it. Altogether, these data lay the groundwork for a systemic understanding of the interplay between blood-borne factors and cellular integrity.

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Cell-free DNA Reveals Potential Zoonotic Reservoirs in Non-Human Primates

Kowarsky

Okamoto

et al. 2018

Preprint

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The microbiome of non-human primates is relatively neglected compared with humans, and yet it is a source of many zoonotic diseases. We used high throughput sequencing of circulating cell-free DNA to identify the bacteria, archaea, eukaryotic parasites and viruses from over 200 individual non-human primates across 17 species from Africa. Many of the assembled sequences have low or no homology to previously sequenced microorganisms, while those that do have homology support prior observations of specific taxa present in primate microbiomes. The structure of the total microbiome is correlated with geographic location, even between distinct primate species which are co-located. However, we find that viruses have a particularly notable association with host taxa independent of geography. Numerous potentially zoonotic taxa were discovered in an unbiased manner, thereby expanding knowledge of host species diversity and strengthening the case for monitoring wildlife reservoirs.One Sentence Summary: Blood from non-human primates provides insight into potential pathogens which might eventually infect humans.

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Neff Nf

The murine transcriptome reveals global aging nodes with organ-specific phase and amplitude

Single-cell transcriptomic characterization of 20 organs and tissues from individual mice creates a Tabula Muris

Ageing compromises mouse thymus function and remodels epithelial cell differentiation

Molecular hallmarks of heterochronic parabiosis at single cell resolution

Cell-free DNA Reveals Potential Zoonotic Reservoirs in Non-Human Primates

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