The Lymph Node Revisited: Development, Morphology, Functioning, and Role in Triggering Primary Immune Responses

Sainte-Marie, G

doi:10.1002/ar.21051

Cited by 62 publications

(46 citation statements)

References 65 publications

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“…While the arteriolar capillary limb subserves the exchange of low-molecular-weight solutes and gases between the intravascular and interstitial spaces, the endothelial exchange area of the postcapillary venular system is generally designed for the rapid recruitment of the large protein molecules and cellular components of the immune system from the blood into inflamed areas (1,25). Indeed, postcapillary venules have a particularly responsive endothelium [postcapillary venular endothelium (PVE)] that, shortly after contact with inflammatory mediators, alters its typical morphology (68) characteristically, finally closely resembling the "high venular endothelium" in the lymph nodes (58). In parallel, the intercellular junctions of the activated PVE, already relatively loose compared with those of the arterioles (12), open widely under the influence of certain inflammatory mediators.…”

mentioning

confidence: 99%

Wall structures of myocardial precapillary arterioles and postcapillary venules reexamined and reconstructed in vitro for studies on barrier functions

Nees¹,

Juchem²,

Eberhorn³

et al. 2012

American Journal of Physiology-Heart and Circulatory Physiology

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The barrier functions of myocardial precapillary arteriolar and postcapillary venular walls (PCA or PCV, respectively) are of considerable scientific and clinical interest (regulation of blood flow and recruitment of immune defense). Using enzyme histochemistry combined with confocal microscopy, we reexamined the cell architecture of human PCA and PVC and reconstructed appropriate in vitro models for studies of their barrier functions. Contrary to current opinion, the PCA endothelial tube is encompassed not by smooth muscle cells but rather by a concentric layer of pericytes cocooned in a thick, microparticlecontaining extracellular matrix (ECM) that contributes substantially to the tightness of the arteriolar wall. This core tube extends upstream into the larger arterioles, there additionally enwrapped by smooth muscle. PCV consist of an inner layer of large, contractile endothelial cells encompassed by a fragile, wide-meshed pericyte network with a weakly developed ECM. Pure pericyte and endothelial cell preparations were isolated from PCA and PCV and grown in sandwich cultures. These in vitro models of the PCA and PCV walls exhibited typical histological and functional features. In both plasma-like (PLM) and serum-containing (SCM) media, the PCA model (including ECM) maintained its low hydraulic conductivity (LP ϭ 3.24 Ϯ 0.52 · 10 Ϫ8 cm·s Ϫ1 · cmH2O Ϫ1 ) and a high selectivity index for transmural passage of albumin (SIAlb ϭ 0.95 Ϯ 0.02). In contrast, LP and SIAlb in the PCV model (almost no ECM) were 2.55 Ϯ 0.32 · 10 Ϫ7 cm·s Ϫ1 · cmH2O Ϫ1 and 0.88 Ϯ 0.03, respectively, in PLM, and 1.39 Ϯ 0.10 · 10 Ϫ6 cm·s Ϫ1 · cmH2O Ϫ1 and 0.49 Ϯ 0.04 in SCM. With the use of these models, systematic, detailed studies on the regulation of microvascular barrier properties now appear to be feasible.

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mentioning

confidence: 99%

Wall structures of myocardial precapillary arterioles and postcapillary venules reexamined and reconstructed in vitro for studies on barrier functions

Nees¹,

Juchem²,

Eberhorn³

et al. 2012

American Journal of Physiology-Heart and Circulatory Physiology

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“…It might appear implausible that a vital function like detection of foreign Ag would depend on aimlessly wandering cells [51]. Yet, our two-scale modeling of T cell migration showed that the combination of random walk within tissue with stochastic migration between tissues is overall a very efficient and robust strategy to bring Ag-specific T cells to the correct location.…”

Section: Discussionmentioning

confidence: 92%

Random Migration and Signal Integration Promote Rapid and Robust T Cell Recruitment

Textor

Henrickson

Mandl³

et al. 2014

PLoS Comput Biol

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To fight infections, rare T cells must quickly home to appropriate lymph nodes (LNs), and reliably localize the antigen (Ag) within them. The first challenge calls for rapid trafficking between LNs, whereas the second may require extensive search within each LN. Here we combine simulations and experimental data to investigate which features of random T cell migration within and between LNs allow meeting these two conflicting demands. Our model indicates that integrating signals from multiple random encounters with Ag-presenting cells permits reliable detection of even low-dose Ag, and predicts a kinetic feature of cognate T cell arrest in LNs that we confirm using intravital two-photon data. Furthermore, we obtain the most reliable retention if T cells transit through LNs stochastically, which may explain the long and widely distributed LN dwell times observed in vivo. Finally, we demonstrate that random migration, both between and within LNs, allows recruiting the majority of cognate precursors within a few days for various realistic infection scenarios. Thus, the combination of two-scale stochastic migration and signal integration is an efficient and robust strategy for T cell immune surveillance.

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“…Secondary B follicles develop on antigen exposure, forming the GC with a surrounding mantle zone. It is believed that GCs develop, thanks to expansion of a small number of B cells that respond to the antigen presented by follicular-associated dendritic cells (reviewed in [16]). As the GC matures, 2 main compartments become evident.…”

Section: Structure Development and Microenvironment Of The Gcmentioning

confidence: 99%

“Intrafollicular neoplasia” of nodular lymphocyte predominant Hodgkin lymphoma

Carbone

Gloghini

2012

Human Pathology

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The Lymph Node Revisited: Development, Morphology, Functioning, and Role in Triggering Primary Immune Responses

Cited by 62 publications

References 65 publications

Wall structures of myocardial precapillary arterioles and postcapillary venules reexamined and reconstructed in vitro for studies on barrier functions

Wall structures of myocardial precapillary arterioles and postcapillary venules reexamined and reconstructed in vitro for studies on barrier functions

Random Migration and Signal Integration Promote Rapid and Robust T Cell Recruitment

“Intrafollicular neoplasia” of nodular lymphocyte predominant Hodgkin lymphoma

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