Upward displacement of the odontoid process into the foramen magnum: a palaeopathological case

An upward displacement of the odontoid process into the foramen magnum was observed in the skeletal remains of a young male unearthed from a 14th to 17th century cemetery in the north-eastern Italy. Examination of skull bone vestiges and computed tomography scan analysis of the axis exhibited a clear-cut contact zone between the odontoid process and the anterior border of the foramen magnum. In addition, the odontoid process appeared backward deviated. Findings suggest a possible diagnosis of basilar impression/invagination. This anomalous contact may cause compression of neural and vascular structures with a multifaceted series of clinical symptoms. We are unable to set our finding into a complete presumptive diagnostic outline because there is no chance to estimate either the magnitude of the whole craniovertebral junction defect but we believe that the present case contributes to the general knowledge of the craniovertebral region and to bone pathology in ancient times.

Capitate-trapezoid synostosis: analysis of an Early Bronze Age case and review of the literature

BACKGROUND

Carpal synostoses are congenital defects characterised by complete or incomplete coalition of two or more carpal bones. Although most of these defects are discovered only incidentally, sometimes they become clinically manifest. Among the different types of carpal coalition, the synostosis between capitate and trapezoid bones is quite rare, with only sparse data available in the literature. The aim of this report was to describe a case of capitate-trapezoid synostosis (CTS) observed in an ancient human skeleton, as well as to scrutinise the pertinent literature in order to assess for the characteristics of this type of defect, including its potential relevance to clinical practice.

MATERIALS AND METHODS

We studied the skeletal remains of an Early Bronze Age male warrior affected by incomplete CTS. Macroscopic and radiological examination of the defect was carried out. We also performed a comprehensive PubMed search in the Medline and other specialty literature databases to retrieve and analyse data relevant to the subject under consideration.

RESULTS AND CONCLUSIONS

The present case is the most ancient CTS ever found. In those literature-reported cases accompanied by careful anatomical description, such as the present one, incomplete coalition invariably occurs between the dorsal surfaces of the two bones, this characteristic emerging as a distinctive morphological trait. Literature analysis further suggests that the true prevalence of CTS is likely to be higher than estimates based on data gathered from radiology series, and that this defect may be associated with pain and carpal bossing more frequently than generally thought.

Inflammation and antiangiogenesis in cancer

The immune system regulates angiogenesis in cancer by means of pro- and anti-angiogenesis activities. In fact, both innate (macrophages, granulocytes, mast cells, dendritic cells, natural killer cells, and platelets) and adaptive (T and B lymphocytes) immune cells synthesize several pro- and anti-angiogenic mediators. Moreover, in pre-clinical models, a synergy has been observed between antiangiogenic molecules and immunotherapy. In this review article, we will focus on some angiogenenic and anti-angiogenic molecules properties of immune cells that may be utilized for a potential parmacological use as anti-angiogenic agents in cancer.

Angiogenesis in asthma

Asthma is a chronic inflammatory disease of the airways characterized by infiltration and activation of inflammatory cells and by structural changes, including subepithelial fibrosis, smooth muscle cells hypertrophy/hyperplasia, epithelial cell metaplasia and angiogenesis. These structural changes are thought to correlate with asthma severity and to account for the development of progressive lung function deterioration. The mechanism underlying airway angiogenesis in asthma and its precise clinical relevance have not yet been completely elucidated. This review provides recent data showing the contribution of allergic inflammation in increased airway vascularity and potential therapeutical approaches in asthma treatment by acting on bronchial microvascular changes.

Nerve growth factor and its receptors TrkA and p75 are upregulated in the brain of mdx dystrophic mouse

Increased angiogenesis and an altered blood-brain barrier have been reported in the brain of dystrophin-deficient mdx mouse, an experimental model of Duchenne muscular dystrophy. To further elucidate the mechanisms underlying angiogenesis in Duchenne muscular dystrophy, in this study we evaluated whether nerve growth factor (NGF) and nerve growth factor receptors (NGFRs) are involved, then correlated NGF-NGFRs expression with vascular endothelial growth factor (VEGF) and its receptor-2 (VEGFR-2) content and matrix metalloproteinases-2 and -9 (MMP-2 and -9) activity, by confocal laser microscopy and immunohistochemistry. Results showed that neurons, astrocytes and ependymal cells were strongly labeled by NGF in mdx brain, expressing NGFRs on glial and endothelial cells. In controls, NGF faintly labeled neurons and astrocytes, whereas endothelial cells were negative for NGFRs. Immunogold electron microscopy demonstrated NGFR gold particles on endothelial cells in mdx brain, while in controls few particles were recognizable only on glial end feet. Western blotting and real time polymerase chain reaction (RT-PCR) demonstrated a higher expression of NGF and NGFR mRNA and protein in mdx brain as compared to controls, and increase of VEGF-VEGFR-2 and active MMP-2 and -9 content. Overall, these data suggest that in the brain of mdx mice, an upregulation of the NGF-NGFRs system might be involved directly, or indirectly through the activation of VEGF-VEGFR-2 and MMP-2 and -9, in the angiogenic response taking place in this pathological condition.

Angiogenesis and mast cells in human breast cancer sentinel lymph nodes with and without micrometastases

AIMS

An increasing number of mast cells have been reported in angiogenesis associated with solid and haematopoietic tumours. Data concerning the number of mast cells in neoplastic lymph nodes and their relationship with microvessel density are controversial. The aim was to correlate the extent of angiogenesis with the number of mast cells reactive with tryptase in biopsy specimens of sentinel lymph nodes with and without micrometastases obtained from patients with breast cancer.

METHODS AND RESULTS

Specimens from sentinel lymph nodes obtained from 80 patients (40 with and 40 without micrometastases) were investigated immunohistochemically by using anti-CD31 and anti-tryptase antibodies. Angiogenesis, measured as microvessel counts, increased in parallel with the number of tryptase-positive mast cells and their values were significantly higher in lymph nodes with micrometastases compared with those without.

CONCLUSIONS

Tryptase-positive mast cells may contribute, at least in part, to angiogenesis occurring in sentinel lymph nodes with micrometastases from patients with breast cancer.

Contribution of endothelial cells to organogenesis: a modern reappraisal of an old Aristotelian concept

It is well established that many tissue-derived factors are involved in blood vessel formation, but evidence is now emerging that endothelial cells themselves represent a crucial source of instructive signals to non-vascular tissue cells during organ development. Thus, endothelial cell signalling is currently believed to promote fundamental cues for cell fate specification, embryo patterning, organ differentiation and postnatal tissue remodelling. This review article summarizes some of the recent advances in our understanding of the role of endothelial cells as effector cells in organ formation.

Macrophages in rheumatoid arthritis

In rheumatoid arthritis (RA) tissue macrophages release growth factors, matrix metalloproteinases, cytokines, and chemokines. While in normal joints there is a balance between proinflammatory and anti-inflammatory cytokines, an imbalance between these inducers and inhibitors of inflammation occurs in RA, where macrophages are responsible for inducing inflammation, matrix destruction and angiogenesis.

The history of the angiogenic switch concept

Spontaneously arising tumor cells are not usually angiogenic at first. The phenotypic switch to angiogenesis is usually accomplished by a substet that induces new capillaries that then converge toward the tumor. The switch clearly involves more than simple upregulation of angiogenic activity and is thought to be the result of a net balance of positive and negative regulators. Tumor growth is although to require disruption of this balance and hence this switch must turned on for cancer progression. Progenitor endothelial cells, the crosstalk between angiogenic factors and their receptors and the interaction between vasculogenesis and lymphangiogenesis are all factors that may contribute to the switch. Its promotion is also the outcome of genetic instability resulting in the emergence of tumor cell lines. This review describes the history of the angiogenic switch illustrated in the literature and with particular reference to the three transgenic mouse models, namely RIP1-TAG2, keratin-14 (K14) (human papilloma virus) HPV16 and papilloma virus, used for stage-specific assessment of the effects of antiangiogenic and antitumorigenic agents.

The contribution of Bruce Glick to the definition of the role played by the bursa of Fabricius in the development of the B cell lineage

In 1956, Bruce Glick and Timothy Chang reported that the bursa of Fabricius plays an important role in antibody production. Their demonstration that antibody responses are suppressed in the majority of bursectomized chickens became the cornerstone of modern immunology. Bursa research increased considerably during the 1960s and early 1970s.

Miller's seminal studies on the role of thymus in immunity

The thymus is one of the two primary lymphoid organs. It is responsible for the provision of T lymphocytes to the entire body, and provides a unique microenvironment in which T cell precursors (thymocytes) undergo development, differentiation and clonal expansion. This review article summarizes the seminal work of the Australian scientist Francis Albert Pierre Miller concerning the description for the first time of the crucial role of the thymus for normal development of the immune system.

Angiogenesis in rheumatoid arthritis

There is much evidence that rheumatoid arthritis is closely linked to angiogenesis. Important angiogenic mediators have been demonstrated in synovium and tenosynovium of rheumatoid joints. VEGF (Vascular Endothelial Growth Factor), expressed in response to soluble mediators such as cytokines and growth factors and its receptors are the best characterized system in the angiogenesis regulation of rheumatoid joints. Moreover, other angiogenic mediators such as platelet-derived growth factor (PDGF), fibroblast growth factor-2 (FGF-2), epidermal growth factor (EGF), insulin-like growth factor (IGF), hepatocyte growth factor (HGF), transforming growth factor beta (TGF-beta), tumor necrosis factor alpha (TNF-alpha), interleukin-1 (IL-1), IL-6, IL-8, IL-13, IL-15, IL-18, angiogenin, platelet activating factor (PAF), angiopoietin, soluble adhesion molecules, endothelial mediator (endoglin) play an important role in angiogenesis in rheumatoid arthritis. On the other hand, endostatin, thrombospondin-1 and -2 are angiogenic inhibitors in rheumatoid arthritis. The persistence of inflammation in rheumatoid joints is a consequence of an imbalance between these inducers and inhibitors of angiogenesis.

Endothelial progenitor cells in health and disease

There is currently great excitement and expectation in the stem cell community following the discovery that multipotent stem cells can be cultured from human fetal tissue and retain their ability to give rise to a variety of differentiated cell types found in all three embryonic germ layers. Although the earliest sites of hematopoietic cell and endothelial cell differentiation in the yolk sac blood islands were identified about 100 years ago, cells with hemangioblast properties have not yet been identified in vivo. Endothelial cells differentiate from angioblasts in the embryo and from endothelial progenitor cells, mesoangioblasts and multipotent adult progenitor cells in the adult bone marrow. Circulating endothelial progenitor cells (EPC) have been detected in the circulation after vascular injury and during tumor growth. The molecular and cellular mechanisms underlying EPC recruitment and differentiation are not yet understood, and remain as one of the central issues in stem cell biology. For many years, the prevailing dogma stated that the vessels in the embryo develop from endothelial progenitors, whereas sprouting of vessels in the adult results only from division of differentiated endothelial cells. Recent evidence, however, indicates that EPC contribute to vessel growth in the embryo and in ischemic, malignant or inflammed tissues in the adult, and can even be therapeutically used to stimulate vessel growth in ischemic tissues.

Increased matrix-metalloproteinase-2 and matrix-metalloproteinase-9 expression in the brain of dystrophic mdx mouse

Brain edema and severe alterations of the glial and endothelial cells have recently been demonstrated in the dystrophin-deficient mdx mouse, an experimental model of Duchenne muscular dystrophy, and an increase in microvessel density in patients affected by Duchenne muscular dystrophy has also been shown. In order to further elucidate the mechanisms underlying the angiogenetic processes occurring in Duchenne muscular dystrophy, in this study we analyzed matrix-metalloproteinase-2 and -9 expression in the brain of 20-month-old mdx and control mice by means of immunohistochemistry, in situ hybridization, immunoblotting and gelatin zymography. Moreover, we studied vascular endothelial growth factor expression by means of Western blot and immunohistochemistry, and by dual immunofluorescence using anti-vascular endothelial growth factor and anti matrix-metalloproteinase-2 and-9 antibodies. Ultrastructural features of the brain choroidal plexuses were evaluated by electron microscopy. Spatial relationships between endothelium and astrocyte processes were studied by confocal laser microscopy, using an anti-CD31 antibody as a marker of endothelial cells, and anti-glial fibrillary acidic protein (GFAP) as a marker of glial cells. The results demonstrate that high expression of matrix-metalloproteinase-2 and matrix-metalloproteinase-9 protein content occurs in mdx brain and in choroidal plexuses where, by in situ hybridization, matrix-metalloproteinase-2 and matrix-metalloproteinase-9 mRNA was localized in the epithelial cells. Moreover, matrix-metalloproteinase-2 mRNA was found in both mdx perivascular astrocytes and blood vessels, while matrix-metalloproteinase-9 mRNA was localized in mdx vessels. Through zymography, increased expression of matrix-metalloproteinase-2 and matrix-metalloproteinase-9 was found in mdx brain compared with the controls. These enhanced matrix-metalloproteinase levels in mdx mice were found to be associated with increased vascular endothelial growth factor expression, as determined by immunoblotting and immunocytochemistry and with ultrastructural alterations of the mdx choroidal epithelial cells and brain vessels, as previously reported [Nico B, Frigeri A, Nicchia GP, Corsi P, Ribatti D, Quondamatteo F, Herken R, Girolamo F, Marzullo A, Svelto M, Roncali L (2003) Severe alterations of endothelial and glial cells in the blood-brain barrier of dystrophic mdx mice. Glia 42:235-251]. Indeed, in the mdx epithelial cells of the plexuses, the apical microvilli were located on the lateral membranes, whereas in the controls they were uniformly distributed over the free ventricular surface. Moreover, by dual immunofluorescence, a colocalization of vascular endothelial growth factor and matrix-metalloproteinase-2 and matrix-metalloproteinase-9 was found in the ependymal and epithelial cells of plexuses in mdx mice and, under confocal laser microscopy, mdx CD-31 positive vessels were enveloped by less GFAP-positive astrocyte processes than the controls. Overall, these data point to a specific pathogenetic role of matrix-metalloproteinase-2 and matrix-metalloproteinase-9 in neurological dysfunctions associated with Duchenne muscular dystrophy.

Fine ultrastructure of chromaffin granules in rat adrenal medulla indicative of a vesicle-mediated secretory process

Observation by transmission electron microscopy, coupled with morphometric analysis and estimation procedure, revealed unique ultrastructural features in 25.94% of noradrenaline (NA)-containing granules and 16.85% of adrenaline (A)-containing granules in the rat adrenal medulla. These consisted of evaginations of the granule limiting membrane to form budding structures having different morphology and extension. In 14.8% of NA granules and 12.0% of A granules, outpouches were relatively short, looked like small blebs emerging from the granule surface and generally contained electron-dense material. A proportion of 11.2% of NA granules and 4.9% of A granules revealed the most striking ultrastructural features. These secretory organelles presented thin, elongated, tail-like or stem-like appendages, which were variably filled by chromaffin substance and terminated with spherical expansions of different electron density. A cohort of vesicles of variable size (30-150 nm in diameter) and content was found either close to them or in the intergranular cytosol. Examination of adrenal medullary cells fixed by zinc iodide-osmium tetroxide (ZIO) revealed fine electron dense precipitates in chromaffin granules, budding structures as well as cytoplasmic vesicles. These data indicate that a common constituent is revealed by the ZIO histochemical reaction in chromaffin cells. As catecholic compounds are the main tissue targets of ZIO complexes, catecholamines are good candidates to be responsible for the observed ZIO reactivity. This study adds further to the hypothesis that release of secretory material from chromaffin granules may be accomplished by a vesiclular transport mechanism typical of piecemeal degranulation.

Do mast cells affect villous architecture? Facts and conjectures

In adult life, the architecture of the intestinal villus is maintained by a complex series of epithelial-stromal interactions that involve different types of fixed and mobile cells located in the intestinal mucosa. Mast cells (MC) are normal constituents of the small bowel mucosa where they reside in the villous and pericryptal lamina propria as well as within the columnar epithelial cell layer. Besides being involved in numerous immune and inflammatory reactions in the context of both innate and acquired host defence, MC are known to exert important non-immunological functions like wound repair, extracellular matrix remodelling, angiogenesis and neurotrophism as well as modulation of fibroblast, epithelial cell and smooth muscle cell activity. These pleiotropic functions put MC in a central, strategic position to organize tissue defence, restore tissue damage and maintain tissue homeostasis. This review summarizes the most recent advances concerning the functional anatomy of the crypt-villus unit and discusses the way intestinal MC might become part of the instructive circuits that ultimately lead to the maintenance of a proper villous shape.

Ultrastructural evidence of piecemeal degranulation in large dense-core vesicles of brain neurons

Large dense-core vesicles (LDCV) are a group of neuronal secretory organelles with different size and characteristically condensed morphology. LDCV release their specific cargo by regulated exocytosis, either in the form of "full fusion" or "kiss-and-run" exocytosis. In this paper, we provide ultrastructural evidence indicative of a slow and particulate mode of secretion from LDCV, called piecemeal degranulation (PMD). A number of LDCV in the nerve boutons of mouse brain presented marked increase in their size accompanied by reduction and also disappearance of content material. Residual secretory constituents in altered LDCV displayed eroded marginated patterns, leading to eccentric "haloed" morphologies. Remarkably, altered LDCV never appeared to be fused with each other or with the nerve plasma membrane. Very small vesicles, empty or apparently loaded with the same material making-up the LDCV content, could be seen near or attached to LDCV and the plasma membrane. First described in basophils, mast cells and eosinophils, PMD has recently been recognized in various neuro-endocrine cells, like adrenal chromaffin cells and endocrine cells of the gastro-intestinal epithelia. Here we suggest that PMD may be a hitherto unrecognized pathway of neuron secretion. It would represent the morphological correlate of a long-lasting and low-level process of neuro-transmitter release. It extends the patterns of neuron secretion and possibly opens new perspectives in understanding neuron plasticity.

Mast cell contribution to angiogenesis related to tumour progression

The current wisdom is that tumours are endowed with an angiogenic capability and that their growth, invasion and metastasis are angiogenesis dependent. It is now well documented that neoplastic cells are influenced by their microenvironment and vice versa. The specific organ microenvironment determines the extent of cancer cell proliferation, angiogenesis, invasion and survival. Tumour cells are surrounded by an infiltrate of inflammatory cells, namely lymphocytes, neutrophils, macrophages and mast cells (MCs), which communicate via a complex network of intercellular signalling pathways, mediated by surface adhesion molecules, cytokines and their receptors. This review article summarizes: (i) the MC mediators involved in angiogenesis; (ii) the experimental evidence concerning the role played by MCs in angiogenesis; (iii) the list of solid and haematological tumours in which a close relationship between angiogenesis, tumour progression and MCs has been demonstrated; (iv) the circumstances in which MCs are a critical source of angiogenic factors in vivo, and in such cases, the signals that regulate their production and secretion that need to be determined as a prelude to the elaboration of new therapeutic strategies associated with MC presence and activation.

The thymus is a site of mast cell development in chicken embryos

Thymic mast cells were studied by light and transmission electron microscopy in chicken embryos during organogenesis. Mast cells made their first appearance at day 15. At days 16 and 17, there was a burst of mast cell development with a peak of 278 +/- 54 cells/mm(2) at day 16. Then, mast cell density decreased until hatching. During the whole embryonic period, about 80% of mast cells localized to the thymic medulla. In the cortex, they were less numerous, and some rare mast cells could be identified in the capsule and septa. Thymic mast cells could be recognized in association with hematopoietic foci, but frequently they grew independently from areas of hematopoiesis and appeared as single cells interspersed among thymocytes, thymic epithelial cells, and interdigitating cells. They were often recognized in close relationship with the scanty and delicate extracellular matrix of the developing gland. Viewed by electron microscopy, mast cells were relatively small cells, with a few secretory granules. Exocytosis was never seen, but, notably, granules emptied in a piecemeal degranulation fashion. This study demonstrates that the chicken thymus is a site of mast cell development during embryogenesis. The high mast cell density we found suggests a possible role for these cells during thymus organogenesis.

The mast cell: an active participant or an innocent bystander?

Mast cells (MC) are phylogenetically old cells which are distributed throughout the human organism and, on the whole, occupy roughly the volume of the spleen. MC have long been recognized as key cells of type I hypersensitivity reactions. Several lines of evidence, however, indicate that they not only express critical effector functions in classic IgE-associated allergic disorders, but also play important roles in host defence against parasites, bacteria and perhaps even viruses. Indeed, it is now clear that MC can contribute to host defence in the context of either acquired or innate immune responses through the release of a myriad of pro-inflammatory and immunoregulatory molecules and the expression of a wide spectrum of surface receptors for cytokines and chemokines. Moreover, there is growing evidence that MC exert distinct non-immunological functions, playing a relevant role in tissue homeostasis, remodeling and fibrosis as well as in the processes of tissue angiogenesis. In this review, we provide a small insight into the biology of human MC and their potential implications in clinical pathology.

Recombinant human erythropoietin induces intussusceptive microvascular growth in vivo

The role of erythropoietin (Epo) in angiogenesis has not been completely clarified. Epo induces endothelial cell proliferation and migration and stimulates angiogenesis on rat aortic rings in vitro and in vivo in the chick embryo chorioallantoic membrane (CAM) assay. The aim of the present study was to evaluate the ultrastructural aspects of angiogenesis in the CAM vasculature after recombinant human Epo (rHuEpo) exposure. The results demonstrated that after rHuEpo stimulation, the generation of new blood vessels occurred more frequently following an intussusceptive microvascular growth (IMG) mechanism. We have performed our experiments between days 8 and 12 of incubation, that is, when in the normal condition the capillary network expands mainly by IMG, and because it is generally accepted that implants made from days 8 to 10 are strongly angiogenic. This response is peculiar of rHuEpo, because it is abolished when an Epo-blocking antibody was coadministered with Epo.

Erythropoietin as an angiogenic factor

Erythropoietin (Epo) is produced by the fetal liver and adult kidney and is an essential stimulator of erythropoiesis. It has, however, been shown to modulate host cellular signal transduction pathway to perform many other functions. New sites of Epo production have been found, such as the female reproductive organs and central nervous system. This review summarizes the involvement of Epo in the regulation of angiogenesis in both normal and pathological conditions.

Low mast cell density in the human duodenal mucosa from chronic inflammatory duodenal bowel disorders is associated with defective villous architecture

BACKGROUND

Mast cells (MC) have recently been implicated in the processes of tissue homeostasis, remodeling and repair.

DESIGN

In this study, the total and tryptase-reactive mast cell populations were quantified in the duodenal mucosa of 27 subjects suffering from chronic inflammatory bowel disorders. Mast cell density was both related to the general villous architecture (normal or defective) and to the microvascular density in the duodenal mucosa.

RESULTS

Total mast cell and tryptase-positive mast cell subpopulation densities were found to be significantly reduced in the samples with defective villous architecture in comparison with those exhibiting a normal villous profile. In these last samples, a relevant proportion of mucosal mast cells exhibited ultrastructural features of secretory activity, in particular piecemeal degranulation. Finally, no correlation was established between microvascular density and tryptase activity, as it has been previously demonstrated in other pathological conditions.

CONCLUSIONS

Overall, these findings indicate a significant correlation between mast cell density and the duodenal mucosal architecture.

Erythropoietin as an angiogenic factor in gastric carcinoma

AIMS

Previous studies have shown that increased vascularity is associated with haematogenous metastasis and poor prognosis in gastric cancer. The role of erythropoietin (Epo) in angiogenesis has not been completely clarified, although its involvement has been reported. In this study we correlated microvascular density and Epo receptor (Epo-R) expression in endothelial and tumour cells with histopathological type in gastric cancer.

METHODS AND RESULTS

Specimens of primary gastric adenocarcinomas obtained from 40 patients who had undergone curative gastrectomy were investigated immunohistochemically by using anti-CD31 and anti-Epo-R antibodies. Stage IV gastric carcinoma had a higher degree of vascularization than other stages, and Epo-R expression in both endothelial and tumour cells increased in parallel with malignancy grade and was highly correlated with the extent of angiogenesis.

CONCLUSIONS

Epo-R level correlates with angiogenesis and progression of patients with gastric carcinoma and we suggest that Epo might have a trophic effect on the vasculature of the gastrointestinal tract. Understanding mechanisms of gastric cancer angiogenesis provides a basis for a rational approach to the development of an anti-angiogenic therapy in patients with gastric cancer.

Correlation of bone marrow angiogenesis and mast cells with tryptase activity in myelodysplastic syndromes

Bone marrow samples from 30 patients with myelodysplastic syndromes (MDS) grouped according to the International Prognostic Scoring System for MDS were investigated for counts of microvessels, total metachromatic mast cells (MC) and MC expressing tryptase, an angiogenesis-inducing molecule. Counts were higher in patients with a poor prognosis. The observation of a high correlation between microvessel counts and both total metachromatic and tryptase-reactive MC in all samples suggests that angiogenesis in MDS increases with their progression and that MC may intervene in the angiogenic response in MDS through tryptase contained in their secretory granules.

Mast cells and their secretory granules are angiogenic in the chick embryo chorioallantoic membrane

BACKGROUND

Many data suggest that the density of mast cells is highly correlated with the extent of both normal and pathological angiogenesis.

OBJECTIVE

In this study we have compared in an in vivo assay, the chick embryo chorioallantoic membrane, the angiogenic potential of mast cell suspensions isolated from rats, degranulated mast cells and their secretory granules.

METHODS

Gelatin sponges adsorbed with cell suspensions of rat mast cells, degranulated mast cells and their secretory granules were implanted on the top of the chorioallantoic membrane at day 8 of incubation. At day 12 the angiogenic response was evaluated macroscopically, microscopically and by a morphometric method of 'point counting'.

RESULTS

Isolated mast cells and their secretory granules, but not degranulated mast cells, induced an angiogenic response in the chorioallantoic membrane. The addition of antifibroblast growth factor-2 or antivascular endothelial growth factor antibodies reduced the angiogenic response of both mast cells and their secretory granules by 50% and 30%, respectively.

CONCLUSION

These data support the evidence that the angiogenic properties of mast cells depend on the angiogenic molecules contained in their secretory granules and indicate that fibroblast growth factor-2 and vascular endothelial growth factor are the angiogenic cytokines primarily and perhaps synergistically responsible for this vasoproliferative activity.

A light and electron microscopic quantitative analysis of nerve-immune cell contacts in the gut-associated lymphoid tissue of the mouse colon

Light microscopy (LM) histochemistry and transmission electron microscopy (EM) have been used to investigate the structural relationship between immunocompetent cells and enteric nerves in the gut-associated lymphoid tissue (GALT) of the mouse colon, i.e., a) the scattered immune cells in the lamina propria, b) the lymphoid follicles and c) the cryptopatches. Nerve-immune cell contacts have been quantified by LM, using the osmium-zinc iodide procedure for visualizing nerve fibers. Appositions of nerves to immune cells have been studied by EM when the distance between the immune cell plasma membrane and the neurilemma was 200 nm or less. In the diffuse GALT a), the LM incidence of nerve-lymph cell and nerve-plasma cell contacts has been calculated to be one and half and, respectively, three times greater than would be expected by chance alone (P < 0.0001 in both cases). EM showed close apposition of axonal varicosities, mostly containing 60 nm diameter dense-cored vesicles, to B lymphoblasts/immunoblasts or plasma cells. In isolated lymphoid follicles b), nerve-immune cell contacts were identified almost exclusively in the T-cell dependent parafollicular regions; the incidence of such contacts, calculated by LM, did not exceed expected theoretical values. By EM, apposition of nerve varicosities to small/middle-sized lymphocytes containing cytoplasmic lysosomal granules was seen sporadically. Examination of nerve-immune cell contacts in cryptopatches c), a recently identified extrathymic T-cell generating compartment, allowed recognition of a small proportion of nerve-lymph cell structural interactions, both at LM and EM. This study provides systematic quantitative data on the microanatomical relationship between enteric nerves and immune cells in the various GALT compartments. Findings suggest that such nerve-immune cell contacts might represent the structural foundation for communication between enteric nerves and the GALT.

Expression and function of P-glycoprotein and absence of multidrug resistance-related protein in rat and beige mouse peritoneal mast cells

To clarify the function of the multidrug transporter P-glycoprotein in mast cells we used the green fluorescent compound Bodipy-FL-verapamil, which is a substrate of P-glycoprotein. This compound is also transported by Multidrug Resistance-related Protein (MRP), another membrane transport protein expressed in many tumour resistant cells as well as in normal cells. When rat peritoneal mast cells were incubated with Bodipy-verapamil, a rapid uptake of this compound was observed. Pretreatment with modulators of P-glycoprotein activity, such as verapamil and vinblastine, increased Bodipy-verapamil intracellular concentrations. In addition, Bodipy-verapamil efflux from these cells was rapid and also inhibited by verapamil and vinblastine. In contrast, no effect was observed when cells were treated with agents, such as probenecid and indomethacin, that are known inhibitors of MRP. Methylamine and monensin, substances that modify the pH values in the granules, were able to lower the concentrations of Bodipy-verapamil. Microscopical observations, conducted in both rat and beige mouse mast cells, demonstrated that the fluorochrome accumulated in the cytoplasmic secretory granules. RT-PCR performed on rat peritoneal mast cells revealed the presence of MDR1a and MDR1b mRNAs; on the contrary, MRP mRNA was not expressed. Mast cells were further treated with the fluorescent probe LysoSensor Blue, a weak base that becomes fluorescent when inside acidic organelles. This substance accumulated in mast cell granular structures and its fluorescence was reduced either by treatment with P-glycoprotein modulators or with agents that disrupt pH gradients. In conclusion, these data further confirm the presence of an active P-glycoprotein, but not of MRP, in rat peritoneal mast cells. These findings, coupled with previous ultrastructural data, lend further support to the assumption that this protein is located on the mast cell perigranular membrane. The functional role of P-glycoprotein in these cells is at present unclear, but a possible involvement in the transport of molecules from the granules to the cytosol can be hypothesized. Alternatively, this protein might be indirectly implicated in changes of pH values inside secretory granules.

Mitochondrial localization of APE/Ref-1 in thyroid cells

Mutations of mitochondrial DNA (mtDNA) are associated with different human diseases, including cancer and aging. Reactive oxygen species produced during oxidative phosphorylation are a major source of mtDNA damage. It is not clear, however, whether DNA repair mechanisms, able to abolish effects due to oxidative damage, are present in mitochondria. APE/Ref-1 is a nuclear protein possessing both redox activity (by which activates, "in vitro", the DNA-binding functions of several transcription factors) and DNA repair activity over apurinic/apyrimidinic sites. Immunohistochemical evidences indicate that in follicular thyroid cells, APE/Ref-1 is located in both nucleus and cytoplasm. Electronmicroscopy immunocytochemistry performed in the rat thyroid FRTL-5 cell line, indicates that part of the cytoplasmatic APE/Ref-1 is located in mitochondria. The presence of APE/Ref-1 inside mitochondria is further demonstrated by western blot analysis after cell fractionation. In the Kimol cell line (which is derived from FRTL-5, transformed by the Ki-ras oncogene) the amount of mitochondrial APE/Ref-1 is reduced by three to fourfold with respect to the normal FRTL-5 cells. These results suggest that: (i) a machinery capable of repairing DNA damaged by oxidative stress is present in mitochondria and (ii) mtDNA repair mechanisms may be impaired during cell transformation.

Biochemical and microscopic evidence for the internalization of drug-containing mast cell granules by macrophages and smooth muscle cells

During mast cell degranulation the soluble component of the granule is released into extracellular fluid, whereas two neutral proteases and heparin proteoglycans form the extracellular granule remnants. These structures are negatively charged and bind with high affinity LDL and other basic molecules. In this study we show that granule remnants expelled into extracellular fluid are able to bind the aminoglycoside antibiotic gentamicin and the anticancer agent doxorubicin in a dose-dependent manner. In addition, granule remnants loaded with the two basic substances are subsequently phagocytosed by macrophages. Indeed, when cells are incubated for 24 h with 1 mg/ml gentamicin, the intracellular concentration of the drug, which in basal conditions is extremely low, increases significantly in the presence of degranulating mast cells (from 5.1 +/- 1.0 to 25.4 +/- 2.5 microg/mg protein) and a good correlation between histamine release and gentamicin uptake is evident. The antineoplastic agent doxorubicin can penetrate cells by passive diffusion; however, when mast cells are added to macrophage monolayer, incubated for 30 min with 50 microM of the antineoplastic agent, a significant increase in intracellular doxorubicin concentration is observed (from 3.5 +/- 0.2 to 4.7 +/- 0.2 microg/mg protein). Internalization of granule remnants carrying gentamicin or doxorubicin is also evident in smooth muscle cells of the synthetic phenotype. In particular, when smooth muscle cells are incubated for 24 h with 1 mg/ml gentamicin, addition of isolated granules increases the uptake from 2.4 +/- 0.2 to 4.8 +/- 0.4 microg/mg protein. Similar results are obtained in smooth muscle cells incubated for 4 h with doxorubicin 50 microM (from 3.3 +/- 0.2 to 4.8 +/- 0.5 microg/mg protein). Data are confirmed by microscopic experiments by means of fluorescence microscopy and electron microscopic studies. The study demonstrates that basic substances can enter phagocytic cells when loaded to granule remnants. The phenomenon can be of particular interest for substances like the aminoglycosides that do not cross biological membranes; indeed, the storage of these antibiotics in phagocytic cells could have important consequences on their antibacterial activity in vivo. Macrophages and smooth muscle cells can also act as a reservoir for doxorubicin. High concentrations of the antineoplastic agent in these cells could be responsible for toxicity, as well as play an important role in the transport of the drug to tumor cells.

Efficiency of doxorubicin handling by isolated hepatocytes is a valuable indicator for restored cell function

Pig liver is a possible source of hepatocytes for extracorporeal bio-artificial liver devices. In order to evaluate recovered hepatocyte function following enzymatic isolation, we developed a cytochemical method that is based on the capacity of hepatocytes to sequester the anthracycline antitumour drug doxorubicin within intracellular acidic compartments. Doxorubicin is a naturally fluorescent molecule. Thus, the process of drug concentration within hepatocytes can be visualized in living conditions by fluorescence microscopy. Porcine hepatocytes harvested from heart-beating donors were grown either as isolated cell suspensions or as tissue monolayers. Immediately after isolation and at fixed culture times, cells were incubated with 0.1 mM doxorubicin in Hanks' balanced salt solution for 10 min at 37 degrees C in 5% CO2-humidified atmosphere and observed by fluorescence microscopy. Parallel electron microscopy was performed to compare fluorescence data with general cell morphology. To monitor lysosomal acidification capacity, the fluorescent pH-sensitive vital dye LysoSensor-Blue was used. Doxorubicin fluorescence showed different patterns of nuclear and cytoplasmic staining, according to the time allowed for cell recovery and the culture method. In particular, cytoplasmic fluorescence changed from a diffuse staining, that could be observed after cell isolation and in hepatocyte suspensions, to a punctate perinuclear and pericanalicular fluorescence detectable in fully recovered hepatocyte monolayers. This study indicates that the 'doxorubicin-fluorescence test' may be considered a simple and rapid procedure for assessing hepatocyte functional condition. It may provide valuable and 'real time' guidelines for judging the correct way these cells are to be collected, preserved and utilized for clinical purposes.

Kinetics of doxorubicin handling in the LLC-PK1 kidney epithelial cell line is mediated by both vesicle formation and P-glycoprotein drug transport

The subcellular distribution of doxorubicin was evaluated in living non-fixed LLC-PK1 cells, which maintain the structural and functional characteristics of the kidney proximal tubule epithelium and also express P-glycoprotein. After 10 min incubation, doxorubicin fluorescence was detectable in the nucleus. The intensity of nuclear fluorescence progressively increased, reaching the maximum at the end of the first hour. Then, the nuclear signal started to decrease and, at 2 h, doxorubicin fluorescence disappeared almost completely from the cell nucleus. Cytoplasmic fluorescent vesicles first appeared in the perinuclear region after 10 min doxorubicin exposure and increased in number and size over a period of 2 h. From 2 to 5 h, fluorescent vesicles moved unidirectionally to the cell periphery. Disappearance of doxorubicin punctate fluorescence in LLC-PK1 cells treated with methylamine or monensin demonstrated that drug accumulation occurred inside acidic compartments. In addition, the cytoplasmic pattern of doxorubicin fluorescence was very similar to that observed upon exposure to the acidotropic tracer LysoSensor Blue. Involvement of P-glycoprotein in doxorubicin handling by LLC-PK1 cells was suggested by modified intracellular doxorubicin distribution after cell incubation with verapamil and vinblastine. Moreover, the fluorescent P-glycoprotein substrate Bodipy FL Verapamil was shown to accumulate in LLC-PK1 cells in a manner that is quite similar to that observed for doxorubicin. P-glycoprotein expression was evaluated by immunoblot using the JSB-1 and C219 monoclonal antibodies. Immunofluorescence analysis was performed using the JSB-1 monoclonal antibody. P-glycoprotein immuno-reactivity was found both on the plasma membrane and intracytoplasmically in a perinuclear position. Reverse transcriptase-polymerase chain reaction (RT-PCR) analysis revealed that MDR1 gene was expressed. This study indicates that a rapid intracellular redistribution accompanies the process of doxorubicin uptake by LLC-PK1 cells. Although these cells are non-tumour cells derived from the normal epithelium of the proximal renal tubule, they display a model of doxorubicin redistribution which is characteristic of doxorubicin-resistant tumour cells.

Effect of low temperature on mast cell exocytosis. Early cytoplasmic vesicle formation and the role of cytoskeleton

Mast cells stimulated with adriamycin at 4 degrees C underwent a unique exocytotic reaction. Rat peritoneal cells including mast cells were stimulated in vitro with adriamycin (100 micrograms/ml) for 0, 10, 30 or 60 sec and observed by transmission electron microscopy. Early changes could be observed after 10 sec stimulation and consisted in an approximately 5-fold increase (p < 0.001) of 0.05-0.2 micron diameter cytoplasmic vesicles. The Golgi apparatus showed signs of activation and vacuolization. From 10 to 30 sec, cytoplasmic vesicles fused with the perigranular membranes and with the membranes of developing secretory channels. At 60 sec, the number of vesicles and vacuoles diminished to nearly two-fold starting levels. The exocytotic reaction characteristically resulted in the formation of enormously dilated granular cavities. The secretory process appeared incomplete; after 60 sec, in fact, maximal histamine release was 20% and exocytosis could be found in approximately 30% of mast cells. Pre-incubation with vinblastine followed by adriamycin stimulation at 37 degrees C determined a dose-dependent inhibition of histamine release which was accompanied by the ultrastructural appearance of numerous 0.05-0.5 micron cytoplasmic vesicles and by signs of inhibited exocytosis. Our results support the concept that hyperstability of the cortical cytoskeleton coupled with microtubule perturbation would be responsible for the depressed pattern of mast cell exocytosis observed at 4 degrees C. Although stimulation at 4 degrees C induces a paradoxal secretory process, we believe that this approach may represent a useful model for understanding some basic mechanisms of exocytosis in mast cells.

Adriamycin induces exocytosis in rat and beige mouse peritoneal mast cells: an ultrastructural, morphometric and biochemical study

The process of exocytosis was studied in rat and beige mouse peritoneal mast cells stimulated by adriamycin (ADR) at 37 degrees C and 22 degrees C. ADR induces a non cytotoxic histamine release that is followed by a significant uptake of the drug. Examination was performed by transmission electron microscopy and, at the same time, histamine release and ADR uptake were measured by spectrofluorimetry. ADR accumulation in mast cells was investigated also by fluorescence microscopy. In rat mast cells stimulated at 37 degrees C, the secretory process developed abruptly and was virtually complete after 30 sec. Electron microscopy showed rapid intracytoplasmic channel formation and extrusion of secretory granules; spectrofluorimetry revealed a massive release of histamine and rapid uptake of ADR. In addition, fluorescence microscopy showed mast cells exhibiting an intense orange-yellow fluorescent signal localized at the secretory granules. At 22 degrees C, rat mast cells showed alteration of the granules, cavity formation by fusion of the perigranular membrane and granule discharge due to fusion of the cavity membrane with the cell membrane. Histamine release and ADR uptake proceeded less quickly than at 37 degrees C. Quantitative analysis of rat mast cell ultrastructure demonstrated that histamine release induced by ADR stimulation was achieved by sequential exocytosis. This process presents both morphological and biochemical affinities with the exocytosis induced by basic secretagogues such as compound 48/80. In beige mouse mast cells the process of exocytosis progressed more slowly and was completed after 20 min at 37 degrees C. By electron microscopy, the cytoplasm presented a rigid structure due to abundance of actin-like fibrils. Granule fusion was an uncommon feature and exocytosis was mostly the result of single granule opening to the cell exterior without extrusion of granule matrices.

Transport of doxorubicin in mast cell granules and the effect of the calcium antagonist verapamil

P-glycoprotein has been identified in mast cells stabilized in culture as well as in rat peritoneal mast cells, and is primarily concentrated on the granular membrane. This study aimed to define the role of this protein in the transport and accumulation of doxorubicin in mast cell granules and in its histamine releasing effect. The reverting agent verapamil, that is a substrate for P-glycoprotein, inhibited doxorubicin uptake in intact mast cells in a dose and time dependent manner, but had no effect on the exocytotic action of the antineoplastic drug. Doxorubicin was also concentrated in granules with intact membranes and the uptake was dependent on temperature and showed a trend for saturation. Verapamil and vinblastine, another substrate for P-glycoprotein, significantly reduced doxorubicin concentrations in intact granules. Similar results were obtained with the metabolic inhibitors sodium metavanadate, N-ethylmaleimide, and sodium azide, whereas ouabain, an inhibitor of sodium-potassium ATPase, was without effect. Doxorubicin was taken also up in granule remnants, consisting of a proteoglycan matrix without membrane, that are extruded from mast cells upon stimulation. However, the uptake was not dependent on temperature and was not modified by P-glycoprotein substrates or metabolic inhibitors. Rat peritoneal mast cells were examined for the expression of P-glycoprotein at the protein level with C219 monoclonal antibody, using Western blot, confirming that P-glycoprotein was expressed in mast cells. These data suggest the presence of a P-glycoprotein active in the transport of doxorubicin, in mast cell granules.

The sinus endothelial cell architecture in the mouse lymph node. Structural peculiarities and close correlation with the fibroblastic reticular cells

The sinus endothelial cell architecture has been studied in the mouse lymph node by light and electron microscopy after tissue fixation with an osmium-zinc iodide mixture. This histochemical method allowed visualization of sinus endothelial cells in the medullary and, partly, in the intermediate sinuses. The osmium-zinc iodide reaction also demonstrated fibroblastic reticular cells, which represent the main stromal cell population in the lymph node and form the skeletal framework of the organ as well as the adventitia of sinuses. In the mouse lymph nodes, sinuses were lined by a simple layer of sinus endothelial cells whose integrity and continuity showed interruptions of various extension. In areas devoid of complete sinus endothelial cell lining, fibroblastic reticular cells located in the nearby parenchyma were able to reach the border of the sinus, being thus in direct contact with the lumen content. Dendritic sinus endothelial cells as well as intermediate forms between sinus endothelial cells and fibroblastic reticular cells could be observed. The close structural characteristics that sinus endothelial cells have in common with fibroblastic reticular cells and the finding of transitional cells with intermediate morphology between sinus endothelial cells and fibroblastic reticular cells, suggest a possible origin of sinus endothelial cells by migration and differentiation of fibroblastic reticular cells located in the sinus adventitia.

Handling of doxorubicin by the LLC-PK1 kidney epithelial cell line

The characteristics of doxorubicin handling have been studied in the cultured kidney epithelial cell line LLC-PK1, which has structure and function similar to those of renal tubular cells and expresses P-glycoprotein. The uptake of doxorubicin by LLC-PK1 cells was time dependent, reaching a steady state at about 4 hr, and reduced at low temperature; the initial uptake was saturable. The efflux of doxorubicin from LLC-PK1 cells was also temperature dependent but, even at 37 degrees C, a significant percentage of the drug remained associated with the cells after 180 min, which suggests a strong cellular binding, and the fluorescence microscopy revealed that the drug was concentrated in intracellular organelles. Substances that are substrates for P-glycoprotein, such as verapamil, vinblastine, vincristine and quinidine, significantly increased doxorubicin concentrations in LLC-PK1 cells. Similar results were obtained with the metabolic inhibitors sodium metavanadate and 2,4-dinitrophenol. On the other hand, the uptake was not affected by the classic organic cation transport drugs cimetidine, decynium 22 or decynium 24, nor by the organic anion drug probenecid. These results indicate that, in LLC-PK1 cells, doxorubicin enters by passive diffusion, is trapped in intracellular organelles and then is extruded from cells by a mechanism that probably involves P-glycoprotein. On the contrary, substances that interfere with the renal organic cation or anion secretory system have no effect on doxorubicin net accumulation in these cells.

Stimulation of rat peritoneal mast cells induces phagocytosis of adriamycin by rat peritoneal macrophages

Rat and beige mouse peritoneal mast cells, induced to exocytose with the antineoplastic agent adriamycin, extrude their granule remnants in the extracellular medium. These granules are loaded with the fluorescent drug adriamycin and exhibit intense yellow-reddish fluorescent staining. Granules extruded from mast cells were ultimately phagocytosed and could be observed inside the macrophages by fluorescence microscopy. All stages of the internalization process could be followed by electron microscopy. Granules adhering to the cell surface of macrophages were first embraced by short superficial projections, then enveloped by deep surface infoldings, and finally engulfed into the macrophage cytoplasm. Phagocytosis occurred exclusively in macrophages; granules were observed also on the surface of eosinophils and lymphocytes, but never inside these cells. The concentrations of adriamycin in macrophages, measured by spectrofluorimetry, were significantly higher when these cells were incubated with adriamycin and granule remnants in comparison with adriamycin alone. Preincubation with the endocytosis inhibitor cytochalasin B significantly reduced the granule mediated adriamycin uptake. As a consequence of the phagocytosis of adriamycin loaded mast cell granules, macrophages can concentrate the antineoplastic drug. These cells act as reservoirs of adriamycin and could have an important role in both the antitumor and toxic effects of the drug.

Apposition of enteric nerve fibers to plasma cells and immunoblasts in the mouse small bowel

Light (LM) and electron microscopy (EM) were used to investigate the structural relationship between enteric nerves and the population of immune cells in the mouse small bowel. By LM, the osmium-zinc iodide procedure was used for visualizing nerve fibers; the incidence of nerve-plasma cell contacts in the mucosa and submucosa was calculated to be approximately 4 times and, respectively, 3 times greater than would be expected by chance alone (P < 0.0001). EM revealed close, synaptic-like contacts between axonal varicosities and plasma cells or B immunoblasts. The results presented here provide systematic quantitative evidence that a structural foundation for communication between nerve fibers and B cells exists in the mouse small bowel.

Identification of P-glycoprotein at the membrane of mast cell secretory granules. An immunofluorescence and protein A-gold electron microscopical investigation

The presence of P-glycoprotein has been investigated in rat peritoneal mast cells by means of immunofluorescence and immunogold electron microscopy, using the specific monoclonal antibody JSB-1. Immunofluorescence studies showed that the glycoprotein is primarily concentrated in mast cell granules, and little is localized at the plasma membrane. Electron microscope observations revealed a marked accumulation of colloidal gold particles at the granule-coating membranes, whereas decoration of the plasma membrane is much less intense. When mast cells are stimulated to exocytate with compound 48/80, both immunofluorescence and electron microscopy showed concentration of P-glycoprotein reactivity at the plasma membrane level. Indeed, fusion of the granule with the plasma membrane allowed transfer of immunoreactive P-glycoprotein material from the granule-coating membrane to the cell surface membrane. These findings confirmed the presence of P-glycoprotein in mast cells; it is predominantly localized in the granules and is exposed on the cell surface only after exocytosis, suggesting, therefore, a possible physiological role for P-glycoprotein in the secretion of certain mediators.

Adriamycin binds to the matrix of secretory granules during mast cell exocytosis

The antineoplastic drug adriamycin induces exocytosis in rat peritoneal mast cells followed by a significant uptake of the drug into the secretory granules. The drug is fluorescent, allowing visualization of its accumulation and binding to mast cell granules by fluorescence microscopy. At the same time, the well known inorganic dye ruthenium red was used as a probe because of its great affinity for heparin in the mast cell secretory granules as visualized by bright field microscopy. Competition between adriamycin and ruthenium red for binding to the negatively charged matrix of granules was demonstrated. Biochemical studies were also performed to confirm microscopic observations. Adriamycin may be of interest for studying mast cell secretion; it is not only a strong fluorescent dye for mast cell granules that are in communication with the extracellular space, but it also induces mast cell exocytosis.

Stromal cell organisation in the mouse lymph node. A light and electron microscopic investigation using the zinc iodide-osmium technique

The organisation of the stromal cell compartment in the mouse lymph node was studied by light and electron microscopy after tissue impregnation by the zinc iodide-osmium (ZIO) method. Fibroblastic reticular cells (FRCs) represented the main stromal cell population. These cells were located both in the cortical region and in the medulla and exhibited various configurations. In the cortex, FRCs were fusiform in shape and came into close proximity with the floor of the subcapsular sinus. In the medulla, the FRCs were shaped like irregular dendritic cells which formed a complex 3-dimensional network. The FRCs surrounded vascular structures such as capillaries and/or high endothelial venules; in these instances they were organised in a discontinuous sheath-like fashion around the vessel wall. By light and electron microscopy, FRCs have been observed to come in close spatial relationship with a number of cells in the lymph node, including sinus endothelial cells, the endothelium of high endothelial venules and capillaries, various types of lymphocytes, follicular dendritic cells and interdigitating cells. These microanatomical features are consistent with the proposal that FRCs may be involved in the communicative networks between the different lymph node compartments. In particular, the FRCs may be involved in the transport of molecules from the sinus compartment to the high endothelial venules or to the distinct cell populations in the lymphoid parenchyma.