Ultrastructure of thymic myoid cells

Mature myoid cells in the parenchyma of reptilian thymus contain all the organelles typical of striated muscle. The presence of both immature and degenerating stages indicates a turnover of myoid cells in the adult thymus. In the earlier stages of differentiation myoid cells resemble thymic epithelial cells. A close parallel exists between developing myoid cells, skeletal muscle differentiating in vitro, rhabdomyoma and rhabdomyosarcoma. Elaborate lattice-like structures are formed by transverse tubules. These structures are compared with similar configurations which have been described in muscle and mitochondrial cristae.     

Myosin and actin containing cells in the human postnatal thymus. Ultrastructural and immunohistochemical findings in normal thymus and in myasthenia gravis.

Samples of normal human thymus of different ages (4-63 years old) were studied by immunofluorescence microscopy (using antibodies to smooth muscle myosin, to actin from the chicken gizzard, and antibodies to myosin from human striated muscle) as well as by routine electron microscopy. Thymus tissue from myasthenia gravis patients was also investigated for comparative reasons. Epithelial cells reacted with anti-smooth, but not with anti-striated muscle myosin, whereas myoid cells reacted with antibodies to striated, but not to smooth muscle myosin. Both epithelial and myoid cells displayed a strong immunoreactivity with antiactin. Corresponding to this immunoreactivity, both cell types contained bundles of thin, actin-like filaments. Myoid cells occurred in the rounded and elongated variety, and they were a normal constituent of all thymuses investigated in this study. Ultrastructurally, this non-innervated, striated muscle-like cell type possessed bundles of thin and thick filaments as well as Z lines in a rather disorganized arrangement, resembling striated muscle after denervation or various other pathologic conditions. There were no overt differences in the number and structure of myoid cells between healthy and myasthenic patients.     

Myoepithelial cells in human thymus: staining, polarization and fluorescence microscopic studies.

Myoid cells in human thymus were studied around the turn of the century, and alterations in patients with cardiovascular disease were reported. It was therefore deemed of interest to reinvestigate these long forgotten cells. The configurational staining, polarization and fluorescence microscopic properties of smooth myofibrils in thymic epithelial cells were identical with those of classical myoepithelial cells, smooth muscle, and A bands of striated muscle. Cross-striated myoid cells could not be found in thymus of children. Myoepithelial cells formed a layer at the surface of thymic lobules; others were scattered throughout the cortex and medulla. In addition, the medulla contained seemingly hypertrophic myoepithelial cells. Hassall's corpuscles consisted of layers of myoepithelial cells. Hammar (1905) regarded epithelial cells with smooth myofibrils in human thymus as equivalents of the cross-striated myoid cells in lower vertebrates. The myoepithelial cells observed in this study are apparently identical with the smooth myoid cells of early anatomists; the hypertrophic myoepithelial cells correspond to the unicellular Hassall's corpuscles. The functions of these cells are not yet clear; the wide variations from case to case in the same age group indicate that the myoepithelial cells are affected by a variety of diseases.     

Ultrastructure of the developing thymus of the leopard frog (Rana pipiens)

Summary A study of the ultrastructure of the developing thymus of the leopard frog (Rana pipiens) revealed that the thymus had undergone all of the major changes which would persist through larval life and metamorphosis by the time that the animals had reached larval stage IV of Taylor and Kollros (1946). These changes included development of an outer, lymphoid cortical region and an inner, essentially nonlymphoid medulla; mitotic activity among lymphoid cell precursors and the formation of the first small lymphocytes; development of complex cysts containing PAS-positive material and the appearance of other signs of secretory activity among epithelial cells of the medulla; and differentiation of large myoid cells containing bundles of striated muscle fibrils. The changes are particularly noteworthy because they first appear during a period in which the animals are known to be developing the capacity to respond immunologically to allografts.Supported by a grant from the National Institutes of Health number GM-11782 to E.P.V.     

Immunological studies of the embryonic muscle cell surface. Antiserum to the prefusion myoblast

Xenogeneic antisera raised in rabbits have been used to detect compositional changes at the cell surfaces of differentiating embryonic chick skeletal muscle. In this report, we present the serological characterization of antiserum (Anti-M-24) against muscle tissue and developmental stage-specific cell surface antigens of the prefusion myoblast. Cells from primary cultures of 12-d-old embryonic chick hindlimb muscle were injected into rabbits, and the resulting antisera were selectively absorbed to obtain immunological specificity. Cytotoxicity and immunohistochemical assays were used to test this antiserum. Absorption with embryonic or adult chick heart, brain, retina, liver, erythrocytes, or skeletal muscle fibroblasts failed to remove all reactivity of Anti-M-24 for myogenic cells at all stages of development. After absorption with embryonic myotubes, however, Anti-M-24 no longer reacted with differentiated myofibers, but did react with prefusion myoblasts. The myoblast surface antigens detected with Anti-M-24 are components of the muscle cell membrane: (a) these macromolecules are free to diffuse laterally within the myoblast membrane; (b) Anti-M-24, in the presence of complement, induced lysis of the muscle cell membrane; and (c) intact monolayers of viable myoblasts completely absorbed reactivity of Anti-M-24 for myoblasts. These antigens are not loosely adsorbed culture medium components or an artifact of tissue culture because: (a) absorption of Anti-M-24 with homogenized embryonic muscle removed all antibodies to cultured myoblasts; (b) Anti-M-24 reacted with myoblast surfaces in vivo; and (c) absorption of Anti-M-24 with culture media did not affect the titer of this antiserum for myoblasts. We conclude that myogenic cells at all stages of development possess externally exposed antigens which are undetected on other embryonic and adult chick tissues. In addition, myoblasts exhibit surface antigenic determinants that are either masked, absent, or present in very low concentrations on skeletal muscle fibroblasts, embryonic myotubes, or adult myofibers. These antigens are free to diffuse laterally within the myoblast membrane and may be modulated in response to appropriate environmental cues during myodifferentiation.     

Histochemical and ultrastructural properties of myoid cells in the thymus of the frog

Summary Histochemical and ultrastructural properties of myoid cells in the thymus of the frog were investigated and compared with properties of skeletal muscle fibres. The histochemical reactions of phospholipids, phosphorylase, succinic dehydrogenase and adenosine triphosphatase activities in myoid cells were characterized by considerable variability. Individual myoid cells apparently possess different enzyme activities which correspond to different stages of development, maturity and degeneration of these cells. The mature mononucleated myoid cells have similar enzymatic properties to the fast muscle fibres of the frog. This finding has been extended by ultrastructural observations. Features, typical of fast muscle fibres of the frog, e.g. the presence of the M-line, straight and narrow Z-line and well developed triads were found in the majority of mature myoid cells.     

Myoid cell density in the thymus is reduced during mdx dystrophy and after muscle crush.

Thymic myoid cells share structural and behavioural features with cells of the skeletal muscle lineage: they express regulatory genes and contractile proteins, and they can form myofibers in culture. Historically, those features suggested that myoid cells could be precursors for muscle repair in addition to the satellite cells in muscle that are typically designated as the only muscle precursors. Muscles of the mutant mdx dystrophic mouse strain have a large demand for precursors, which is greatest at a young age. In the present study, immunostaining for troponin T was used to localize myoid cells. We tested the hypothesis that the myoid cell population changes when there is a demand for muscle precursors and that these changes would be anticipated if myoid cells have a role as myogenic precursors or stem cells in muscle. Chronic demands for muscle precursors in mdx dystrophic mice were accompanied by lower myoid cell density in comparison with density in two normal strains (C57BL10/ScSn and Swiss Webster). Acute demand for precursors was accompanied by a sharp decline in thymic myoid cell density within 2 days after a crush injury to one tibialis anterior muscle in normal but not dystrophic animals. To standardize the developmental age of the thymus, density was determined in all animals at 28 days of age. Given the current interest in nonmuscle sources of myogenic stem cells, these data suggest that changes in the density of thymic myoid cells may accompany acute and chronic demands for muscle precursors. Further experiments are required to determine whether thymic myoid cells are participants in distant muscle cell proliferation, new fiber formation, or the establishment of new stem cells in regenerated muscle.     

Cross-reacting antigens of human thymus myoid cells and stable L-forms of group A streptococci

Indirect immunofluorescence has shown a similarity between the antigen components of group A streptococcus L-forms and human thymus myoid cells. An analogous antigen (or antigens) is present in the cytoplasmic membrane of human myocardial cell fibers. The depletion of antiserum to the streptococcal L-forms both by the culture of L-forms grown in meat or casein media and by the homogenate of the cardiac muscle leads to the inhibition of immunofluorescence. The depletion of serum by the homogenate of other tissues (liver) or by L-form culture does not virtually affect the immunofluorescence intensity. According to the authors' opinion, the similarity of antigens of group A streptococcus L-forms to the antigenic components of organ tissues is likely to be responsible for long-term persistence of the microorganisms under consideration and to favour, in some cases, the occurrence of autoantibodies. The latter circumstance might lead to pathological changes in organs containing cross-reacting antigens.     

The Ontogeny of Thymic Myoid Cells in the Chicken

The ontogeny of thymic myoid cells in the chick was studied electron microscopically and immunohistochemically. An anticreatine kinase antibody which reacts specifically to skeletal muscle cells was used. This antibody reacts only to myoid cells in the thymus. Myoid cells were found in the medulla or in the interlobular region, though the number of the myoid cells was small. Immunohistochemically, myoid cells were detected on the 18th day of incubation. Mature myoid cells showed clear cross striations after immunohistochemical staining around the time of hatching. Electron microscopically, myoid cells were detectable on the 19th day of incubation. The discrepancy between immunohistochemical and electron microscopical detection may be due to the low number of myoid cells.     

Phenotypic and functional characterization of human thymic stromal cell lines.

To establish new tools for studying human thymic stromal cells, we transfected adherent cells from a human postnatal thymus using a plasmid encoding SV40 large T antigen. Among the cell lines obtained, we characterized four epithelial cell lines (LT-TEC1 to LT-TEC4) and one thymic myoid cell line (MITC). Several morphological, functional and phenotypic differences were observed between these 2 cell types. Epithelial cells were heterogeneous and larger than myoid cells. Untreated LT-TEC lines expressed MHC class I, ICAM-1 and LFA-3 antigens and not MHC class II antigens, similarly to primary thymic epithelial cells (PTEC), while MITC line expressed only class I and LFA-3 antigens. After IFN-gamma treatment, MHC class II and ICAM-1 antigens were markedly upregulated in LT-TEC lines but not in MITC, indicating the absence or a dysfunction of regulatory factors in MITC line. Myoid cells expressed mRNA for all the subunits of the acetylcholine receptor (AChR) while epithelial cells expressed only the alpha, beta and epsilon subunits. Strikingly, LT-TEC produced much more C-C chemokines and IL-6 than MITC cells, while these latter produced higher levels of IL-8 and TNF-alpha. Altogether, these results reveal phenotypic and functional differences between these two stromal cell types, suggesting a potential involvement of myoid cells in the thymic function.     

中国林蛙胸腺类肌细胞的细胞学研究

目的通过对中国林蛙胸腺的组织细胞结构研究,探讨胸腺类肌细胞的结构特点及年周变化规律。方法选用崂山产中国林蛙(Rana chensinensis),雌雄兼有,逐月取材,应用H-E、铅苏木精、Grimelius嗜银和PAS等染色方法进行染色,超微结构用日立透射电子显微镜进行观察。结果类肌细胞是中国林蛙胸腺髓质中恒定出现的一种特征性细胞。细胞质包含许多类似于骨骼肌内的典型结构——肌纤维,根据结构特点可将细胞分为未成熟、成熟以及退化3种类型。肌细胞的出现伴有明显的年周变化,2、3月份开始逐渐增多,到9月份肌细胞的大小与数量达到最大,不同月份所含细胞类型也大有不同。结论类肌细胞是胸腺实质组织中的一种正常细胞,具有不同发育阶段的3种形态结构类型,细胞数量和类型具有年周变化特点,推测与胸腺的正常功能有密切关系。     

On the character of the monolayer outgrowth and the fate of the peritubular myoid cells in cultured mouse testis

Postnatal differentiation of the peritubular myoid cells in mouse testis is hormone dependent. In order to analyse the differentiation of the peritubular tissue, an attempt was made to develop an experimental model system utilizing an in vitro method. Fragments obtained from adult, 7- or 10-day-old mice, were cultured in McCoy's modified 5a medium for 9–19 days. The fragments and monolayers that grew from them were examined with the electron microscope at the end of the culture period. Monolayers originating from either mature or immature testicular expiants were comparable in appearance. They were composed of spindle-shaped cells that contained abundant profiles of granular endoplasmic reticulum and free ribosomes, as well as arrays of 40–60 Å thick filaments and associated dense bodies. In these respects they resembled smooth muscle cells in culture, in developmental, and in pathological conditions. Examination of the peritubular tissue in the testicular explants indicated that the monolayer of myoid cells originated from the fibroblasts rather than the peritubular myoid cells. Peritubular cells in explants from mature rats retained their myoid features at the end of the culture period but myoid cell differentiation failed to progress in expiants obtained from immature animals. Additional work is necessary in order to establish the suitability of these preliminary culture attempts to support normal development before conclusions may be drawn concerning the role of hormones in myoid cell differentiation. The role of microfilaments as a contractile organelle of cells is discussed.     

Epithelial-mesenchymal interactions in prostatic development. I. morphological observations of prostatic induction by urogenital sinus mesenchyme in epithelium of the adult rodent urinary bladder

Tissue recombinants of embryonic urogenital sinus mesenchyme (UGM) and epithelium of the urinary bladder (urothelium, BLE) of adult rats and mice were grown for 3-30 d in male syngeneic hosts. Short-term in vivo growth indicated that prostatic morphogenesis is initiated as focal outgrowths from the basal aspect of the adult urothelium. The solid epithelial buds elongate, branch, and subsequently canalize, forming prostatic acini. After 30 d of growth in the male hosts, prostatic acini exhibit secretory activity. The marked changes in urothelial morphology induced by the UGM are accompanied by the expression of fine- structural features indicative of secretory function (rough endoplasmic reticulum, Golgi apparatus, and secretory granules). During this process, urothelial cells express prostatic histochemical markers (alkaline phosphatase, nonspecific esterase, glycosaminoglycans) and prostate-specific antigens. The expression within BLE of prostatic characteristics is associated with the loss of urothelial characteristics. These data indicate that adult urothelial cells retain a responsiveness to embryonic mesenchymal inductors. Furthermore, mesenchyme-induced changes in urothelial cytodifferentiation appear to be coupled to changes in functional activity.     

Antibodies to an antigen of human thymus epithelial tissue common to the epidermis of the skin in malignant myasthenia]

It has been demonstrated by the indirect immunofluorecent technique that many of the sera of patients with myasthenia gravis react with the anticells of the human thymus epithelial tissue. Sorption of the sera with the suspension of the epidermis cells and the homogenates of the tissues of other human organs showed that the epithelial cell antigen with which the sera of patients with myasthenia reacted were epidermal heteroorganic thymus antigens, i.e. common for the thymus epithelium and skin epidermis. The presence of antibodies to the cells of the epithelial tissue of the thymus in the sera of patients suffering from myasthenia gravis permits to suppose the existence of an immunopathological process against the thymus tissue antigens (including the heteroorganic structures of its epithelium) in this disease.     

Action of embryonic thymus and liver cells on the development of the ascitic form of Ehrlich's carcinoma

The influence of the cells of embryonic thymus and liver on the development of Ehrlich carcinoma was studied. The intraperitoneal injection of the embryonic cells in the adult mice infested by the Ehrlich carcinoma resulted in a marked lengthening of the life time of animals and an increase of the survival percentage. The embryonic cells of thymus and liver inhibited sharply the growth of carcinoma cells in the diffusion chambers as well. In contrast to this, the thymus and bone marrow cells of adult animals, taken in the same concentrations as the embryonic cells, exhibited only a slight inhibiting effect on the growth of tumour cells. On the basis of these data a suggestion is put forward to the effect that the embryonic immunocompetent cells determine the stronger inhibition of tumour growth in the embryos as compared with the adult animals.     

Expression of fetal antigens by normal human skin cells grown in tissue culture.

Normal human sera are capable of causing complement-mediated lysis of normal human skin cells grown in tissue culture. This lytic reactivity can be completely removed by absorption with first trimester fetal tissue. Absorption with a variety of normal adult human tissues including lymphocytes, decidua, skin, and muscle are incapable of absorbing reactivity. Absorption of reactivity by fetal tissue is specific and not due to the introduction of anti-complementary or other nonspecific factors, as evidenced by the inability of simultaneous fetal absorption to remove reactivity from antisera with specificity for HLA antigens. Similarly, absorption of lytic sera with fetal calf serum proteins was incapable of removing reactivity against normal cells in tissue culture. It thus appears that normal human cells in tissue culture express antigens shared by the first trimester human fetus, but not present on a variety of adult human tissues. This "neoantigen" present on normal human cells when grown in tissue culture is a potential source of confusion and must be accounted for in searching for human tumor-specific antigens utilizing tissue culture cells.     

Contribution of neural crest-derived cells in the embryonic and adult thymus

Neural crest (NC)-derived mesenchyme has previously been shown to play an important role in the development of fetal thymus. Using Wnt1-Cre and Sox10-Cre mice crossed to Rosa26(eYfp) reporter mice, we have revealed NC-derived mesenchymal cells in the adult murine thymus. We report that NC-derived cells infiltrate the thymus before day 13.5 of embryonic development (E13.5) and differentiate into cells with characteristics of smooth muscle cells associated with large vessels, and pericytes associated with capillaries. In the adult organ at 3 mo of age, these NC-derived perivascular cells continue to be associated with the vasculature, providing structural support to the blood vessels and possibly regulating endothelial cell function.     

Hemopoietic tissue in the adult newt,Notopthalmus viridescens

The presence of developmental stages of lymphocytes and their precurors, as revealed by serial and thin sections of hemopoietic organs of normal adult newts (Notopthalmus viridescens) suggests that lymphopoiesis is limited to the thymus, medulla of the spleen and, to a lesser degree, the intestine. Stromal cells, small lymphocytes, granulocytes, mature erythrocytes and melanocytes were observed either within or near the parenchyma of the thymus. The urodele thymus differs from the thymus of anurans and higher vertebrates in that it lacks a cortex and a medulla, myoid cells and Hassall's corpuscles.     

Spontaneous myogenic differentiation of Flk-1-positive cells from adult pancreas and other nonmuscle tissues

At the embryonic or fetal stages, autonomously myogenic cells (AMCs), i.e., cells able to spontaneously differentiate into skeletal myotubes, have been identified from several different sites other than skeletal muscle, including the vascular compartment. However, in the adult animal, AMCs from skeletal muscle-devoid tissues have been described in only two cases. One is represented by thymic myoid cells, a restricted population of committed myogenic progenitors of unknown derivation present in the thymic medulla; the other is represented by a small subset of adipose tissue-associated cells, which we recently identified. In the present study we report, for the first time, the presence of spontaneously differentiating myogenic precursors in the pancreas and in other skeletal muscle-devoid organs such as spleen and stomach, as well as in the periaortic tissue of adult mice. Immunomagnetic selection procedures indicate that AMCs derive from Flk-1(+) progenitors. Individual clones of myogenic cells from nonmuscle organs are morphologically and functionally indistinguishable from skeletal muscle-derived primary myoblasts. Moreover, they can be induced to proliferate in vitro and are able to participate in muscle regeneration in vivo. Thus, we provide evidence that fully competent myogenic progenitors can be derived from the Flk-1(+) compartment of several adult tissues that are embryologically unrelated to skeletal muscle.