Morphological characterization of stationary reticulum cells of the stromal in the mesenteric lymph node of the guinea pig

The large mesenteric lymph node taken from guinea pigs in a period of time ranging from the 10th day prepartum till the 26th day postpartum has been examined in order to study: the morphological features of the stromal stationary reticulum cells with particular regard to recognize their stages of development; the possible ontogenetic relationship between these cells during the maturation of the lymphoid tissue. Our data support the hypothesis that from local mesenchymal cells originates a pool of poorly differentiated reticulum cells that can give rise to stromal stationary reticulum cells (myofibroblast-like cells, fibroblast-like cells, pericyte-like cells and dendritic cells). These elements have a characteristic distribution pattern likely related to different local functional requirements.     

Smooth muscle and myofibroblast-like cells in the perimedullary stromal basket of kidneys from ringed seals (Phoca hispida)

Summary The medullary pyramid of renculi in kidneys of ringed seals (Phoca hispida) is enclosed by a basket composed of ribbons of stromal tissue continuous with the wall of the calyx. Branched smooth muscle cells with well-developed Golgi complexes and rough endoplasmic reticulum and only an incomplete external lamina are the principal cells in sites near the origin of the ribbons from the calycal wall. Deeper in the corticomedullary junctional region, smooth muscle is progressively replaced with stellate or spindle-shaped cells exhibiting structural characteristics intermediate between those of fibroblasts and smooth muscle fibers. These myofibroblast-like cells contain arrays of parallel microfilaments 6–8 nm thick with associated focal densities and subplasmalemmal dense plaques, caveolae, elongate, often deeply wrinkled nuclei, and well-developed Golgi complexes and rough endoplasmic reticulum. Material resembling external lamina is associated with parts of the surfaces of most myofibroblast-like cells and intermediate junctions are present. Fibroblasts lacking arrays of parallel microfilaments are a minority at any level in the stromal ribbons. Interstitial cells in the vicinity of the corticomedullary junction show similar myofibroblast-like characteristics. The smooth muscle and myofibroblast-like cells presumably assist expression of urine from the papilla and calyx, and possibly participate as pacemakers for the urinary tract.     

Intermediate (10 nm) filaments in human malignant mesothelioma.

Human malignant mesotheliomas were studied by electron microscopy. Three main types of cells were seen--submesothelial epithelioid cells, epithelial lining cells and fibroblast-like cells. In submesothelial epithelioid cells prominent arrays of intermediate (10 nm) filaments were often seen attached to plasma membrane, mitochondria, nuclei and concentric whorls of rough endoplasmic reticulum. The other types of cell found in the tumors, epithelial lining cells and fibroblast-like cells, lacked such distinct filaments. The intermediate filaments were especially abundant in cells with extensive whorling of endoplasmic reticulum. The association of intermediate filaments with such deranged cytoplasmic organization suggests that they play a role in the altered behavior of malignant cells.     

Human platelet lysate enhances the proliferative activity of cultured human fibroblast-like cells from different tissues

Several studies have shown the presence of fibroblast-like cells in the stromal fraction of different tissues with a high proliferative and differentiation potential. Platelet alpha granules contain growth factors released into the environment during activation. The effects of different supplements for culture medium (human serum, bovine serum and platelet lysate) on cultured human fibroblast-like cells from bone marrow, adipose tissue, trabecular bone and dental pulp have been compared. Expression of typical stromal and hematopoietic markers was analyzed and proliferative rates were determined. Flow cytofluorometry showed a homogenous pattern in serial-passaged cells, with a high level of stromal cell-associated markers (CD13, CD90, CD105). The presence of platelet lysate in culture media increased the number of cell generations obtained regardless of cell source. This effect was serum-dependent. Cell-based therapies can benefit by the use of products from human origin for “ex vivo” expansion of multipotent cells.     

Morphological and functional characteristics of human temporal-bone cell cultures

Morphology and calcium metabolism have been studied on five different cell cultures from human normal adult temporal-bone biopsies obtained during five stapedectomies. Control cell cultures were obtained from normal human skin. Four different cell types were observed in the bone biopsies: 1) osteoblast-like cells; 2) osteoclast-like cells; 3) fibroblast-like cells; 4) intermediate cells. However, morphology by itself is inadequate for clear differentiation of the four cell types. Hormonal stimulation with calcitonin and dibutyryl-cAMP in presence of 45Ca++ showed a clear-cut difference in 45Ca++ uptake between cultured cells deriving from bone and skin. Functional responses to hormonal stimulation are therefore more specific than cell shape and morphology in differentiating fibroblasts from bone cells. Since responses to hormonal stimulation confirm that temporal-bone cell cultures actually contain bone cells, such cultures seem to be a good experimental model for the study of bone morphology and physiology.     

Time-related distribution profiles of sulfated glycosaminoglycans in cells, cell surfaces, and media of cultured rat liver fat-storing cells

Fat-storing cells (perisinusoidal lipocytes, Ito cells), the principal proteoglycan-producing cell type in liver, were maintained for various times in primary and secondary culture to monitor the amount and pattern of [35S]sulfate-labeled glycosaminoglycans (GAG) in the cells, on the cell surface, and in the medium. In parallel with the phenotypic modulation of fat-storing cells toward myofibroblast-like cells, intracellular GAG decrease progressively, whereas cell surface-bound and medium GAG increase several-fold. These changes are associated with time-dependent alterations of the pattern of GAG in the various compartments. Dermatan sulfate is the most prominent intracellular GAG type in primary cultures, but on the cell surface and in the medium chondroitin sulfate prevails and reaches almost 70% of all medium GAG in secondary cultures. The results point to a highly dynamic expression of the specific types of GAG in the cellular and extracellular compartments of fat-storing cell cultures that seems to accompany the spontaneous transformation into myofibroblast-like cells. The latter one is a mainly chondroitin sulfate-producing cell type, whereas the initial fat-storing cell generates predominantly dermatan sulfate.     

Electron microscopy of cytodifferentiation and its subcellular steroidogenic sites in the theca cell of the human ovary

Summary The cytodifferentiation and subcellular steroidogenic sites in the theca cell of the human ovary during the follicular phase were investigated using the electron microscopic cytochemistry. Only fibroblast-like cells were seen around or near the primordial follicle. In the theca interna of the secondary and Graafian follicle however there were three different cell types: fibroblast-like cells, theca gland cells (steroid-secreting cells) and transitional cells (partially or incompletely differentiated theca cells). On the other hand the theca externa of these follicles consisted mainly of fibroblast-like cells. The hallmarks of the cytodifferentiation of the theca cells were: 1) the appearance of lipid droplets, 2) a structural change of the mitochondrial cristae from lamellar to tubular form and 3) the appearance and development of smooth endoplasmic reticulum. Reaction products of 3-hydroxysteroid ferricyanide reductase, indicating 3-hydroxysteroid dehydrogenase activity, were localized on tubular or lamellar cristae and inner membrane of the mitochondria, and on the membranes of smooth endoplasmic reticulum in the transitional cell as well as in the theca gland cell of the secondary and Graafian follicle. From these data, it is suggested that the transitional cell has a steroid-secreting activity and also plays an important role in follicular development in human reproduction.Supported by a grant from the Japanese Educational Ministry     

Analysis of cartilage differentiation from skeletal muscle grown on bone matrix: I. Ultrastructural aspects

Previous studies have demonstrated that embryonic skeletal muscle is competent to form hyaline cartilage when cultured in vitro on demineralized bone matrix (Nogami, H., and Urist, M. R. (1970). Exp. Cell Res.63, 404–410; Nathanson, M. A., et al. (1978). Develop. Biol.64, 99–117). The present experiments were undertaken to determine the nature of the morphological alterations which attend this phenotypic transformation and to investigate the ultrastructural characteristics of the myoblasts and fibroblasts of skeletal muscle during the transformation. Nineteen-day embryonic rat limb muscles were minced and the tissue fragments explanted to bone matrix or collagen gels. The trauma of excision and mincing causes syncytial myotubes to degenerate and the nuclei of mononucleate cells to enter a heterochromatic “resting stage.” In culture, nuclei of mononucleate cells rapidly regain euchromasia. No myoblast or fibroblast cell death can be detected. On bone matrix, the entire mononucleate population transforms into fibroblast-like cells. Myoblasts are the major contributor to this population; they dissociate from the degenerate myotubes and begin to acquire endoplasmic reticulum by 24 h in vitro. The fibroblast-like morphology persists through 4 days in vitro. By 6 days in vitro some of these fibroblast-like cells acquire the phenotypic characteristics of chondrocytes, and by 10 days masses of hyaline cartilage are found. In control explants of skeletal muscle onto collagen gels, the heterochromatic nuclei of the mononucleated cells expand after 24 hr in vitro, but the mononucleated cells remain as myoblasts and fibroblasts and begin to regenerate skeletal muscle by 4 days in vitro. No cartilage forms. The results indicate that both myoblasts and fibroblasts have chondrogenic potential when grown on demineralized bone. It is tempting to conclude that the embryonic mesenchymal cells which give rise to skeletal muscle, cartilage, and other connective tissue of the limb have similar developmental potentials and that local influences, rather than separate cell lineages, account for the final pattern of differentiation.     

Interrelation of the osteogenic and hemopoietic tissues of the bone marrow during the development of estrogenic myelofibrosis

By means of estrogenic myelofibrosis, using the method of heterotopic transplantation of the bone marrow, interrelations of osteogenic and hemopoietic tissues have been studied. Under estrone effect disorders in stromal microenvironment take place at the level of stem osteogenic cells of the bone marrow. Deficiency in cells of monocytic-macrophagal line, inhibiting proliferation of the bone marrow connective tissue cells, contributes to development of myelofibrosis. The hormone acts mainly in committed hemopoietic cells, singly launching them from G0- into S-period of the cycle, and then--into differentiation, accompanied with an enhanced discharge of cells from the bone marrow. There is neither direct, nor indirect dependence between the osteogenic mass and the cellularity of the hemopoietic tissue of the bone marrow. The changes, that take place in the bone marrow under estrone effect, are reversible.     

Fibroblast-like cells from embryonic chick cornea, heart, and skin are antigenically distinct.

Populations of fibroblast-like cells from 14 day embryonic chick cornea, heart, and skin were grown in vitro as primary cultures and found to be antigenically distinct from one another. Corneal fibroblasts were obtained by dissection, whereas heart and skin fibroblast-like cells were separated from nonfibroblastic cell types by their rapid adhesion to substrata. Cultured cells were used as antigens in rabbits. Antisera were first absorbed against homogenates of embryonic chicks from which the homologous tissue was removed. Each such 1° absorbed antiserum then was absorbed against homogenates of the two respective heterologous fibroblast-like cell populations (2° and 3° absorptions). Resulting 3° absorbed antisera were tested for specificity by immunodiffusion, immune agglutination, immune cytotoxicity (trypan blue uptake and ⁵¹Cr release), and indirect immunofluorescence. Each 3° antiserum was judged tissue specific when it reacted only with the fibroblast-like cells of its own tissue, i.e., the homologous population. Unabsorbed antisera reacted with both homologous and heterologous fibroblast-like cells, as did 1° absorbed antisera. Absorption of 1° antisera with homogenates of the two heterologous fibroblast-like populations removed antibodies against the heterologous populations without significantly reducing the 3° antiserum titer against the homologous fibroblast cell type. Moreover, absorption of 1° antisera with each of the two heterologous fibroblast-like populations removed antibodies not removed by the other. Thus, the fibroblast-like cells from cornea, heart, and skin are antigenically different from one another in vitro. The stable antigenic differences detected may have arisen during the differentiation of these cells in vivo. Some of the tissue-specific antigens detected must occur on the cell surface.     

Multilineage differentiation potential of equine blood-derived fibroblast-like cells

Tissue engineering (TE) has emerged as a promising new therapy for the treatment of damaged tissues and organs. Adult stem cells are considered as an attractive candidate cell type for cell-based TE. Mesenchymal stem cells (MSC) have been isolated from a variety of tissues and tested for differentiation into different cell lineages. While clinical trials still await the use of human MSC, horse tendon injuries are already being treated with autologous bone marrow-derived MSC. Given that the bone marrow is not an optimal source for MSC due to the painful and risk-containing sampling procedure, isolation of stem cells from peripheral blood would bring an attractive alternative. Adherent fibroblast-like cells have been previously isolated from equine peripheral blood. However, their responses to the differentiation conditions, established for human bone marrow MSC, were insufficient to fully confirm their multilineage potential. In this study, differentiation conditions were optimized to better evaluate the multilineage capacities of equine peripheral blood-derived fibroblast-like cells (ePB-FLC) into adipogenic, osteogenic, and chondrogenic pathways. Adipogenic differentiation using rabbit serum resulted in a high number of large-size lipid droplets three days upon induction. Cells' expression of alkaline phosphatase and calcium deposition upon osteogenic induction confirmed their osteogenic differentiation capacities. Moreover, an increase of dexamethasone concentration resulted in faster osteogenic differentiation and matrix mineralization. Finally, induction of chondrogenesis in pellet cultures resulted in an increase in cartilage-specific gene expression, namely collagen II and aggrecan, followed by protein deposition after a longer induction period. This study therefore demonstrates that ePB-FLC have the potential to differentiate into adipogenic, osteogenic, and chondrogenic mesenchymal lineages. The presence of cells with confirmed multilineage capacities in peripheral blood has important clinical implications for cell-based TE therapies in horses.     

Hepatic myofibroblasts: A heterogeneous population of multifunctional cells in liver fibrogenesis

Hepatic myofibroblasts constitute a heterogenous population of highly proliferative, pro-fibrogenic, pro-inflammatory, pro-angiogenic and contractile cells that sustain liver fibrogenesis and then fibrotic progression of chronic liver diseases of different aetiology to the common advanced-stage of cirrhosis. These α-smooth muscle actin-positive myofibroblast-like cells, according to current literature, mainly originate by a process of activation and trans-differentiation that involves either hepatic stellate cells or fibroblasts of portal areas. Hepatic myofibroblasts can also originate from bone marrow-derived cells, including mesenchymal stem cells or circulating fibrocytes able to engraft chronically injured liver, as well as, in certain conditions, by a process of epithelial to mesenchymal transition involving hepatocytes and cholangiocytes. Hepatic myofibroblasts may have also additional crucial roles in modulating immune response and in the cross talk with hepatic progenitor (stem) cells as well as with malignant cells of either primary hepatocellular carcinomas or of metastatic cancers.     

Collagen production by rat liver fat-storing cells in primary culture

Morphological changes, proliferation and collagen synthesis of fat-storing cells (FSC) in primary culture were examined. FSC, isolated from rats treated with vitamin A, showed numerous large lipid droplets in the cytoplasm and positive desmin staining. After 4-7 days culture, these cells were transformed into fibroblast-like cells with a gradual depletion of lipid droplets and with abundant well-developed rough endoplasmic reticulum. The proliferation analysis revealed that DNA synthesis preceded the increase of cell number. Enhancement of the collagen synthesis by FSC were associated with the morphological change of the cells. Quantitative analysis revealed that these cells produced mainly type I collagen (84%) and a small amount of type III collagen (16%).     

LepR+ cells dispute hegemony with Gli1+ cells in bone marrow fibrosis

Bone marrow fibrosis is a reactive process, and a central pathological feature of primary myelofibrosis. Revealing the origin of fibroblastic cells in the bone marrow is crucial, as these cells are considered an ideal, and essential target for anti-fibrotic therapy. In 2 recent studies, Decker et al. (2017) and Schneider et al. (2017), by using state-of-the-art techniques including in vivo lineage-tracing, provide evidence that leptin receptor (LepR)-expressing and Gli1-expressing cells are responsible for fibrotic tissue deposition in the bone marrow. However, what is the relationship between these 2 bone marrow cell populations, and what are their relative contributions to bone marrow fibrosis remain unclear. From a drug development perspective, these works bring new cellular targets for bone marrow fibrosis.     

Serial passage of MC3T3-E1 cells down-regulates proliferation during osteogenesis in vitro

Generally, fibroblast-like cells and other types of human cells have been used to demonstrate the principles of replicative senescence in vitro and in vivo. These cells go through three stages of proliferation, including vigorous proliferation, declining proliferation and quiescence or no proliferation. Any variation of this process occurring in osteoprogenitor cells may offer insight into the mechanism of age-related osteopaenia that predisposes individuals to osteoporosis and bone fractures. We selected MC3T3-E1 cells derived from mouse calvaria to study the mechanism of replicative senescence of pre-osteogenic cells because: (i) these cells constitute a well-known model for studying osteogenesis in vitro; (ii) they undergo a developmental sequence of proliferation and differentiation similar to primary cells in culture; and (iii) they show signs of replicative senescence. These cells were aged by multiple passaging before their use for studying growth kinetics and the effects of population density, effect of extracellular matrix (ECM), size and phases of the cell cycle. Our results show that (i) MC3T3-E1 cells go through the first two stages of proliferation in a manner similar to human cells, but escape the quiescent phase; (ii) the rate of proliferation is similar for low passage (LP) and high passage (HP) cells, but is decreased in very high passage cells (VHP); (iii) growth inhibition is observed using HP cells seeded at high density; (iv) HP ECM stimulates proliferation of both LP and HP cells; (v) a small increase in cell size is observed in HP cells, but no change is seen in the distribution analysis of their cell cycle; (vi) distribution analysis of the cell cycle of VHP cells reveals a decreased and an increased frequency of cells in S and G2 + M phases of their cell cycle, respectively. These results suggest that the mouse MC3T3-E1 cell line exhibits many of the cellular and molecular markers associated with replicative senescence in culture as defined by human cells, such as fibroblast-like cells. Alteration in the sensitivity of MC3T3-E1 cells to intercellular contact and increase in cell size are the primary factors contributing to decreased proliferation of HP cells.     

Frequent association of idiopathic myelofibrosis with plasma cell dyscrasias

In a retrospective analysis of 199 cases of myeloproliferative diseases a concomitant plasma cell dyscrasia was found in three out of 46 patients with idiopathic myelofibrosis. Chronic myeloid leukemia, polycythemia vera or unclassifiable myeloproliferative disorders were in no case associated with monoclonal gammopathy. One patient with idiopathic myelofibrosis had primarily coexistent IgG-lambda paraproteinemia and increasing osteolytic lesions; histologic evidence of multiple myeloma, however, was insufficient. In the second patient the interval between diagnosis of idiopathic myelofibrosis and IgG-kappa paraproteinemia was 11 years. After a stable period of 9 years' duration the paraprotein level rapidly increased, associated with depression of normal background immunoglobulins and progressive bone marrow failure. The exact nature of this patient's malignant plasma cell dyscrasia remained uncertain. In the third case benign monoclonal gammopathy of the IgM-lambda type was diagnosed 13 years after idiopathic myelofibrosis. A review of the literature confirms a remarkably high incidence of monoclonal gammopathies in idiopathic myelofibrosis. Benign monoclonal gammopathy seems to occur in at least 8% of the patients while only a few cases of concomitant multiple myeloma have been reported. It may be speculated that plasma cell dyscrasias in idiopathic myelofibrosis reflect involvement of the lymphoid lineage in the neoplastic stem cell disorder.     

Bone marrow engraftment: histopathology of hematopoietic reconstitution following allogeneic transplantation in CML patients

Following myelo-ablative treatment and allogeneic bone marrow transplantation (BMT) in chronic myelogenous leukemia (CML) histopathological features assumed to exert a significant impact on engraftment have been rarely investigated systematically. This review is focused on immunohistochemical and morphometric techniques involving nucleated erythroid precursors, resident macrophages and their various subsets, megakaryocytes and finally argyrophilic (reticulin-collagen) fibers. Regarding standardized intervals of examination in the postgraft sequential trephine biopsies a pronounced reduction in cellularity was obvious and accompanied by a decrease in the quantity of erythro- and megakaryopoiesis. A significant correlation between the number of erythroid precursors and CD68+-macrophages could be determined in the areas of regenerating hematopoiesis. This finding is in keeping with the important functional role of the centrally localized mature macrophages during erythropoiesis. A relevant pretransplant reduction of the red cell lineage and an early to advanced reticulin fibrosis were correlated with a low hemoglobin level (anemia) and splenomegaly and furthermore associated with a significant delay to reach transfusion independence. This result was supported by corresponding findings in biopsy specimens performed shortly after day 30 following BMT (standard interval for assessment of engraftment). Samples revealed an enhancement of fiber density and a conspicuous decrease in the amount of erythropoiesis in the small fraction of patients who did not conform with the usually accepted criteria for successful hematopoietic reconstitution. Considering the compartment of histiocytic reticular cells the recurrence of Pseudo-Gaucher cells (PCGs) in the engrafted donor marrow was remarkable and most prominently expressed in the first two months following BMT. This feature was presumed to be functionally linked with a pronounced degradation of cell debris in the sequel of myelo-ablative therapy (scavenger macrophages). According to planimetric measurements in the postgraft bone marrow the atypical dwarf-like CD61+-megakaryocytes characteristic for CML disappeared. On the other hand, normalization of megakaryocyte size and nuclear lobulation were absent in sequential examination of the few patients developing a leukemic relapse. In a number of patients with manifest myelofibrosis at onset, an initial regression after BMT was followed by an insidiously occurring retrieval which was concentrated on the areas of reconstituting hematopoiesis. Similar to its relevant pretransplant association the postgraft reappearance of myelofibrosis was significantly correlated with the quantity of CD61+-megakaryocytes. Altogether a number of histological features in the pre-and postgraft bone marrow exhibited significant correlations with each other and thus indicated functional relationships. Moreover, quantity of erythropoiesis and amount of reticulin fibers (myelofibrosis) exerted a significant impact on engraftment status.     

Long-term cryopreserved amniocytes retain proliferative capacity and differentiate to ectodermal and mesodermal derivatives in vitro

Putative stem cells have recently been isolated from several extra-embryonic tissues, including Wharton's Jelly and umbilical cord blood. Relevant studies have focused on primary cultures established from freshly isolated tissues. In this report, we examine the plasticity of 472 cells, a cryopreserved human amniocyte cell line originally isolated in 1974. Under conditions conducive for proliferation, the amniocytes displayed fibroblast-like morphologies and expressed Oct4 and Rex1, genes associated with pluripotency. Perhaps indicative of inherent plasticity, 472 cells simultaneously expressed ectodermal beta-III-tubulin and mesodermal fibronectin. When cultured under conditions that promote neural differentiation, the cells adopted neuronal morphologies and expressed neuronal genes, including Gap-43, NF-M, tau, and synaptophysin. Exposure to culture conditions that encourage osteogenic differentiation resulted in increased expression of alkaline phosphatase (ALP) and the deposition of mineralized matrix, established markers of bone cell differentiation. In sum, this population of human amniocytes appears to be multipotent, capable of in vitro differentiation to ectodermal and mesodermal cell types. Retention of this plasticity through decades of cryopreservation suggests that amniocytes might be candidates for future cell-based therapies.     

Nature of the target cells in bone marrow B-suppressor action studied on a simplified model of suppression activity registration

The addition of bone marrow cells to spleen cells and lymph node cells stimulates by mitogents, but not to fibroblast-like cells, leads to a significant reduction of DNA synthesis in mixed cultures in vitro. The suppression effects appears only in two days and the suppressor cell activity is the stronger, the intensive is the target cell proliferation. It is shown that intact bone marrow cells can suppress the lipopolysaccharide-activated bone marrow cell proliferation in vitro. A conclusion may be draw that cells of the lymphoid system serve as target cells for the bone marrow suppressor cells, and the role of these lymphoid system cells is to control immunogenesis processes by suppressing the target cell proliferation activity in the bone marrow.