Identification of subsets of human T cells capable of enhanced transendothelial migration.

A critical step in immunologically mediated inflammation is the migration of T cells between endothelial cells of postcapillary venules and into the tissues. To determine whether specific cells are capable of transendothelial migration, T cells that had migrated through endothelial monolayers were retrieved and analyzed. To accomplish this, human umbilical vein endothelial cells (EC) were cultured to confluence on collagen gels and incubated with human T cells. T cells that were nonadherent to the EC, those that bound to the endothelium, and cells that had migrated through the endothelial monolayer and into the collagen were individually harvested and characterized. After a 4-h incubation with EC, T cells distributed themselves such that 77 +/- 2% were nonadherent, 13 +/- 2% were bound to EC, and 10 +/- 1% had migrated into the collagen. The CD4+ T cells that had migrated into the collagen were predominantly CD29bright/CD45RObright and CD45RA-. CD8+ T cells demonstrated a greater transendothelial migratory capacity than the CD4+ T cells. The migrated CD8+ T cells were mainly CD29bright but CD45RA+. Additional phenotypic analysis of the migrating cells indicated that they contained fewer cells that expressed L-selectin. Moreover the surface expression of CD7 was less dense in the T cells that had migrated than in the nonadherent T cells. Finally the T cells that migrated were not enriched for CD45RBdim T cells. Prolonging the incubation with EC to 36 h increased the number of T cells that migrated but did not alter the predominance of CD29bright T cells in the migrated population. Stimulation of EC with IL-1 or IFN-gamma also increased the number of adherent and migrating T cells, respectively, but did not alter the phenotype of the migrating cells. These results indicate that the capacity for transendothelial migration is an intrinsic ability of certain subpopulations of T cells and is related to their stage of differentiation as identified by their surface phenotype.     

Growth of mouse fibroblasts in the presence of irradiated and lyophilized monolayers of the same type of cells

Certain cells, such as 3T3 mouse embryo fibroblasts, are inhibited from dividing when they grow to a characteristic cell density on a surface in tissue culture. We asked whether the inhibition of cell division could be attributed to the inert chemical composition of neighboring cells, that is, whether the residues of lyophilized cells retained the ability to inhibit the division of normal cells. In addition, we wanted to know whether cells in which DNA synthesis was imparied by irradiation would retain the capacity to effectively inhibit normal cells. To answer these questions, confluent and non-confluent layers of 3T3 cells were prepared in tissue culture dishes and the cells were either lyophilized or irrariated in situ. Fresh 3T3 cells were then added to these prepared layers and their growth was followed using radioactive label. There was no growth of added cells on the confluent monolayers of either untreated or irradiated cells. Growth was unimpeded on the monolayers of lyophilized cells. When cells were added to non-confluent cultures of either normal or irradiated cells the added cells grew until they had covered the remaining surface of the culture dish and had come into contact with the pre-existing cells. In the discussion, consideration is given to the role of available surface over which the cells can spread as well as to the possible interactions between neighboring cells.     

Influence of amacrine cells on receptive field organization of ganglion cells of the generalized vertebrate cone retina: Electronic simulation

Two classes of amacrine cells are simulated, small-field and large-field. Small-field amacrine cells are formed by input from a single bipolar cell, while large-field amacrine cell is formed by inputs from same 7 bipolar cells that form the ganglion cell. Only tonic amacrine cells are studied with both chromatic and luminosity types as well as double-and single-opponent receptive fields. Amacrine cells are used in both feedforward to ganglion cells and feedback to bipolar and horizontal cells. Feedback to bipolar cells or feedfoward to ganglion cells affected steady state levels in a predictable fashion. Negative feedback to bipolar cells and positive feedfoward to ganglion cells does not introduce transients to ganglion cells while negative feedback to horizontal cells and negative feedfoward does. Feedback to horizontal cells produces complex effects on bipolar, amacrine and ganglion cells dependent on such factors as center-surround field balance and negative feedback from luminosity type of horizontal cell to cones.     

Eight types of endocrine cells in the abomasum of sheep

In the ovine abomasum, 8 types of endocrine cells were classified at ultrastructural level. The gastric-type EC cells contained oval and pleomorphic granules with high electron density. The intestinal-type EC cells were filled with oval, irregular and highly dense granules. ECL cells contained irregular granules with high density and wide clear spaces. D cells were filled with round granules showing low to moderate density and finely granular matrix D1 cells contained round or oval granules with variable, low to moderate density and finely granular content. G cells showed round and oval granules with moderate density, densely packed or flocculent content. F cells were filled with oval or elliptic granules showing low density with a finely granular and flocculent matrix. X cells contained round granules with high density and homogeneous material. Gastric-type EC cells, intestinal-type EC cells, D cells, and D1 cells were represented in the cardiac, fundic and pyloric gland areas of the ovine abomasum. ECL cells and F cells were confined to the fundic glands, G cells and X cells to the pyloric glands.     

Effect of tryptophan on growth and morphology of Hansenula schneggii cells

Sundhagul, Malee (Illinois Institute of Technology, Chicago), and L. R. Hedrick. Effect of tryptophan on growth and morphology of Hansenula schneggii cells. J. Bacteriol. 92:241-249. 1966.-When Hansenula schneggii cells were cultured aerobically in a tryptophan-glucose medium, 70 to 90% of the cells were elongated; no growth occurred under anaerobic conditions. The size of the elongated cells was 15 to 25 mu by 2 to 4 mu, as compared with 2.5 to 5 mu for ellipsoidal cells. Formation of elongated cells occurred essentially during the logarithmic growth period; the highest percentage of elongated cells was found soon after the end of this growth phase. In the later stationary phase, some of the cells formed spherical buds which became spherical cells. The rate of cell division during this period was greatly reduced, but the spherical cells formed decreased the percentage of elongated cells in the population. Cells cultured in a membrane-filter filtrate of a tryptophan-glucose medium (with limiting tryptophan), in which elongated cells had been grown, were ellipsoidal until nitrogenous nutrients were exhausted; thereafter the cells were elongated if tryptophan was added. Of compounds related to tryptophan, kynurenine was the only one which induced a high percentage of the cells to elongate. Some amino acids, such as cystine, histidine, phenylalanine, tyrosine, and threonine, induced elongation in about 15% of the cells. Growth of cells with other amino acids, or the addition of most of the other amino acids to tryptophan-glucose medium, resulted in a population of spherical cells. Several consecutive sequential transfers of cells into tryptophan medium induced elongation in 90% of the cells, but one transfer from a culture with elongated cells into a medium with ammonium sulfate, or a mixture of amino acids, gave a culture with ellipsoidal cells. Growth in media at pH 4 or 5 favored formation of elongated cells; as the pH was increased, the percentage of elongated cells decreased. Carbon sources other than glucose did not affect the percentage of elongated cells, except for the alcohols mannitol and erythitol, which gave comparable growth but reduced the percentage of elongated cells from 70 to 50%. Cell wall analyses of the two types of cells indicated that elongated cells have 2.5 times as much mannan as cell walls of ellipsoidal cells. This suggests that tryptophan, kynurenine, and, to a limited extent, some of the other amino acids cause a diversion of polysaccharide biosynthesis to mannan in the elongated cells rather than to glucan as in ellipsoidal cells.     

Cell cooperation in abolition of tolerance of xenogeneic tumor.

Thymectomized, lethally irradiated mice reconstituted with syngeneic bone marrow cells are tolerant to xenogeneic Yoshida ascites sarcoma (YAS). The tolerance was abolished by an injection of syngeneic normal spleen, thymus, or lymph node cells given simultaneously with YAS. Allogeneic and semiallogeneic spleen cells were ineffective. The YAS-rejecting mice produced specific anti-tumor antibodies. The serum of these mice transferred to tolerant T-cell-deficient mice protected the latter from inoculated YAS cells. These serum-protected mice were not able to resist the reinoculum of the tumor cells as the mice restored with lymphoid cells did. The latter mice rejected the YAS at the time when donor cells were practically absent in their lymphoid tissue. The low effective ratio of injected syngeneic lymphoid to tumor cells, efficiency of injected thymus cells, and other data led to the conclusion that transferred lymphoid cells did not act directly on tumor cells but through cooperation with host lymphoid cells. The cooperation of donor T- and host B-lymphocytes enabled the activation of the latter, and YAS cells were rejected.     

Possible role of neuraminidase in activated T cells in the recognition of allogeneic Ia

In a primary MLR, predominant stimulators in spleen cells are adherent cells and not B cells, although B cells are one of the cell types expressing a large amount of Ia molecules. Our previous experiments showed that T cells treated with neuraminidase (Nase) responded to an allogeneic Ia on B cells. In our experiments, the relationship between the responsiveness to the allogeneic Ia molecules on B cells and Nase activity of T cells was examined. The results showed that T cells increased in Nase activity with the acquisition of the reactivity to Ia on B cells. T cells from normal mice increased in Nase activity after the incubation for 3 days or more in MLR, and these T cells responded to allogeneic Ia on B cells. However, T cells from mice genetically deficient in Nase responded poorly to the Ia on allogeneic B cells even after the incubation in MLR for 3 days. T cells incubated for 3 days in MLR decreased in electrophoretic mobility, indicating the decrease of net negative charge of the cells, and increased in their binding of peanut agglutinin which has been reported to bind to galactosyl residues exposed on T cell surface by removing sialic acids. These results suggest that Nase in T cells was activated by the cultivation in MLR for 3 days, and sialic acids of some molecules on T cell surface were removed by the enzyme and, in turn, T cells acquired the responsiveness to allogeneic B cells in a secondary MLR. Thus, Nase was suggested to play a regulatory role in the recognition of Ia molecules in T cells.     

A role of HLA-DQ molecules of stimulator-adherent cells in the regulation of human autologous mixed lymphocyte reaction

In this study, we have found that treatment of stimulator autologous adherent cells with anti-HLA-DQ mAb resulted in markedly enhanced proliferative response of T cells in human autologous mixed lymphocyte reaction system wherein T cells were cultured with autologous adherent cells at near ratio of adherent cells to T cells in peripheral blood, in which T cells minimally proliferate. However, treatment of stimulator-adherent cells with anti-HLA class I, anti-DR and anti-DP mAb had no effect on the proliferative response of T cells under the condition. It was further observed that CD4-enriched cells could significantly proliferate in the presence of autologous adherent cells either untreated or treated with anti-DQ mAb, although treatment of adherent cells with anti-DR mAb blocked proliferative response of CD4-enriched cells. Moreover, the proliferative response of CD4-enriched cells was suppressed by addition of CD8-enriched cells in the presence of untreated adherent cells, whereas the proliferative response of CD4-enriched cells could not be suppressed by CD8-enriched cells when the adherent cells in the culture were treated with anti-DQ mAb. These observations suggest that CD8 T cells are required for suppression of proliferative response of CD4 T cells to HLA-DR molecules on autologous stimulator-adherent cells, and that HLA-DQ molecules on the surface of adherent cells play an important role in the induction of suppression by CD8 T cells.     

Role of laminin in the Morphogenetic cascade during Coculture of sertoli cells with peritubular cells

Observations summarized in this article demonstrate an essential role of laminin during the restructuring processes that occur during coculture of Sertoli cells with testicular peritubular cells. The data presented indicate that laminin becomes detectable on the free surfaces of Sertoli cells only after reaggregation of Sertoli cells begins, coincident with the initiation of repolarization at a specific stage of the morphogenetic cascade. We infer that laminin deposited at this time serves as a cohesion molecule that permits peritubular cells to come into close contact with Sertoli cells and subsequently to spread along the free surfaces of Sertoli cells. These conclusions and inferences are based on the following experiments. Cycloheximide-treated peritubular cells in culture in MEM containing cycloheximide readily attach to laminin-coated polystyrene surfaces. By contrast, added peritubular cells do not attach onto monolayers of Sertoli cells in monoculture or onto Sertoli cells plated on top of peritubular cells and maintained in coculture for periods of up to 48 h in cocultures maintained for 6 days, however, labeled peritbular cells readily adhere to the free surfaces of reaggregated Sertoli cells. Laminin, but not fibronectin, appears on the free surfaces of the reaggregated Sertoli cells atthis time, coinciding with the period of initial mound formation. The addition of antilaminin IgG, but not antifibronectin IgG, blocks the attachment of cycloheximide-treated peritubular cells to laminin-coated plates and also blocks the subsequent migration of peritubular cells required to form a monolayer. Similarly, anti-laminin IgG inhibits the attachment and spreading of labeled peritubular cells seeded on the free surfaces of reaggregated Sertoli cells in mounds generated during the morphogenetic cascade. We interpret the combined data to indicate that the appearance of laminin on the free surfaces of Sertoli cells is required to permit peritubular cells to adhere and subsequently to migrate on Sertoli cell surfaces, resulting in the formation of a tubule-like structure. © 1994 Wiley-Liss, Inc.     

Differentiation of B lineage cells from liver of neonatal mice: generation of immunoglobulin isotype diversity in vitro

The development and differentiation of B cells expressing different immunoglobulin (Ig) isotypes was studied in cultures of murine neonatal liver cells. Before culture, 5 to 15% of the liver cells were mu + pre-B cells; 1 to 3% had surface IgM and less than 0.1% had slgG. During 4 days in culture the number of pre-B cells declined, whereas the number of IgM B cells increased greater than 20-fold; IgG B cells also increased in number. Of the four subclasses, IgG3+ and IgG2b+ cells predominated, each representing 3 to 10% of the total B cells at day 4. IgG1+ and IgG2a+ cells were present in lower numbers, representing 1 to 5% and 0.3 to 2.5% of B cells, respectively. Most IgG+ cells also expressed sIgM. Only a minority (less than 10%) of the sIgM+ cells were sIgD+, and most sIgG+ cells were sIgD-. Few T cells were present in these cultures (less than 0.5% in newborn liver), and sIgG+ cells were generated in normal frequencies in cultures of cells from nude mice. The numbers of B cells expressing each IgG subclass were similar in cultures from athymic nu/nu mice, nu/+ heterozygous littermates, and normal BALB/c mice. Plasmablasts and plasma cells appeared over a 14-day culture interval, and these expressed cytoplasmic IgM, IgG3, IgG1, IgG2b, IgG2a, and IgA. Measurable amounts of the first four isotypes were detected in the culture supernatants by radioimmunoassay. These results indicate that neonatal B cells can undergo isotype switching in the absence of T cell help, and that the expression of sIgD may not be a prerequisite for cells to switch Ig isotypes.     

Cell types in the adenohypophysis of the Japanese quail and effects of injection of luteinizing hormone-releasing hormone

The cells of the adenohypophysis of the Japanese quail were studied by both light and electron microscopy after exposure to long photoperiods or injection of lutenizing hormone-releasing hormone (LRH). Six cell types were identified in the adenohypophysis by examining alternate thick and thin sections by light and electron microscopy. In the cephalic lobe, there are four types of glandular cells. They are the prolactin cells, ACTH cells, TSH cells, and gonadotropic cells (FSH?). In the caudal lobe, there are two types of cells, STH cells and gonadotropic cells (LH?). After exposure to long daily photoperiods, gonadotropic cells in both lobes were strongly activated. They became larger and accumulated many granules. ACTH cells became vacuolated; granules were sparse. Synthetic LRH injection (10 mug/0.2 ml/day) for 10 days to the non-photostimulated quail stimulated certain numbers of the gonadotropic cells in the both lobes, although the response of the cells was less than that induced by photostimulation. No response was seen in the other cell types.     

The Differentiation of a Cell Sorting Mutant of Dictyostelium discoideum

As a result of transfecting Dictyostelium discoideum with an actin 6/ lac Z fusion transgene, strain HW80 was created which expresses the β-galactosidase gene product uniformly throughout development. When mixed with an excess of unmarked wild-type cells, however, HW80 cells selectively migrate to the positions of anterior-like cells surrounding the prespore cell mass, and differentiate as if they were anterior-like cells. As the proportion of HW80 cells is increased, they also sort to positions adjacent to anterior-like cells and some differentiate as prespore cells. Thus sorting of HW80 cells toward the opposite ends of the prespore cell zone supersedes how they differentiate, suggesting that position influences whether cells differentiate as anterior-like or prespore cells.     

Isolation and Characterization of Mesenchymal Cells from the Tail of Bullfrog Tadpoles*

Mesenchymal cells were separated with the aid of EDTA, dispase, collagenase and hyaluronidase from tail fins of Rana catesbeiana tadpoles and were cultured to examine their morphology and response to thyroid hormone, which controls metamorphosis. The mensenchymal tissue consisted of two main types of cells, macrophage-like cells (M cells) and fibroblastic cells (F cells), distinguishable by their morphological and biochemical characteristics. M cells were preferentially located near the boundary between the mesenchyme and the epidermis. They were more adhesive to the plastic culture dishes than F cells. The M cells developed a bizarre rod-like branching process during one week of culture, which appeared to be identical to the process formed by mammalian macrophages undergoing clasmatosis. M cells cultured for more than one week tended to fuse together forming multinuclear giant cells. F cells were found uniformly in the tissue and were active in collagen biosynthesis. Thyroid hormone at a physiological concentration greatly reduced the life span of F cells, but did not reduce that of M cells.     

Loss of polar trophoblast during differentiation of the blastocyst of the horse

Twelve blastocysts, collected 7-12 days after ovulation (Day 0), were examined by light and electron microscopy to investigate the nature of the relationship of the polar trophoblast (Rauber's layer) to the inner cell mass. On Day 7, the polar trophoblast was intact and formed a flattened layer overlying the epiblast cells of the inner cell mass. As blastocysts enlarged to greater than 1 mm in diameter, small discontinuities appeared in the polar trophoblast, where epiblast cells intruded onto the surface. At this time, trophoblast cells adhered closely to adjacent and underlying epiblast cells, forming an irregular layer of cells capping the epiblast. With continued increase in blastocyst size, polar trophoblast cells became isolated but maintained their characteristic apical endocytic structures. By Days 10-12, the scattered trophoblast cells showed evidence of deterioration, and vacuoles containing cell debris were common within the epiblast. It is suggested that polar trophoblast cells become scattered, rather than withdrawing as a unit, because they become more adherent to subjacent epiblast cells than to adjacent trophoblast cells. It is further suggested that most of the isolated cells are eventually phagocytosed by epiblast cells.     

Cell Migration and Induction in the Development of the Surface Ectodermal Pattern of the Xenopus laevis Tadpole

The surface of the Xenopus tadpole contains three specialized, transient cell types; the ciliated, hatching gland, and cement gland cells. To distinguish whether the appearance of these cell types on the surface is due to induction of surface cells or due to migration of deep ectodermal cells into the surface, we transplanted labelled surface or deep cells to unlabelled hosts at early to mid-gastrulae. After raising the host to a tadpole (Stage 28), we examined the embryo's surface for ciliated, hatching gland, and cement gland cells, and observed which cells were labelled. We find that all ciliated cells move into the surface from the deep ectodermal layer along with other cells of unknown function. Hatching gland cells arise by induction of surface cells as do the majority of cement gland cells. A few deep cells give rise to cement gland cells. Therefore, migration of deep cells to the surface and localized induction of surface cells contribute to the final surface patterning of the Xenopus tadpole.     

Histochemical observation of bovine spinal ganglia

Summary Morphologically, large oval cells, small oval cells and intermediate cells were distinguished among the nerve cells of the bovine spinal ganglion. — The nerve cells generally showed the prominent enzymatic reactions to SDH, NAD-, NADP-dependent MDH, GDH and NAD-dependent IDH.— Large cells reacted somewhat slightly to alpha-GDH, G-6-PDH and NADP-dependent IDH, while intermediate and small cells reacted strongly. LDH reaction of large and small cells was moderate and that of intermediate cells varying. — In general, to the dehydrogenases tested, intermediate cells were most stainable and small cells reacted in the varying degrees. Considerable reactions for dehydrogenases were present in the capsular cells especially in the case of NADP-dependent IDH and G-6-PDH. The nerve fibers were less stainable to the dehydrogenases. MAO activity was observed in the capsular cells, nerve fibers and a large number of the nerve cells. — AChE reaction of the nerve cells was various and that of the capsular cells negligible, while ChE activity was limited to the capsular cells. ACP activity in nerve and capsular cells was positive, and ALP activity was confined to the capsular cells and the capillary vessels. Intense ATPase activity was localized in the capsular cells, peripheral zone of the neuroplasm and the neurilemma.     

Immunoregulatory T cell circuits in man. Identification of a distinct T cell subpopulation of the helper/inducer lineage that amplifies the development of alloantigen-specific suppressor T cells

Regulation of the immune response in man is dependent on interactions between cells of helper/inducer (Leu-3+/T4+) lineage and cells of suppressor/cytotoxic (Leu-2+/T8+) lineage. By using the mixed leukocyte reaction (MLR) as a model system, we have shown previously that alloantigen-primed Leu-3+ cells induce autologous Leu-2+ cells to differentiate into suppressor T cells that specifically inhibit the response of fresh T cells to the original allogeneic stimulator cells. The current study was undertaken to analyze the roles in this suppressor circuit of subpopulations of Leu-3+ cells distinguished from one another on the basis of their binding or lack of binding to monoclonal anti-Leu-8 antibody. Although both Leu-3+,8- and Leu-3+,8+ T cells proliferated in allogeneic MLR, alloactivated Leu-3+,8+ cells alone induced proliferation and differentiation of Leu-2+ suppressor cells. Leu-3+,8+ cells also induced Leu-3+,8- cells to proliferate, and following their activation in this manner, such autoactivated Leu-3+,8- cells augmented the differentiation of Leu-2+ suppressor cells, but only in the presence of alloactivated Leu-3+,8+ cells. Furthermore, this effect, like the suppressor effect, was specific for the inducer cells, and thus indirectly for the HLA-DR antigens of the original allogeneic stimulator cells as well. These results indicate that alloantigen-primed Leu-3+,8+ cells not only activate specific Leu-2+ suppressor cells but also activate specific Leu-3+,8- suppressor-amplifier cells, and in combination, these cells exert potent feedback inhibition of MLR.     

小分子化合物诱导干细胞向视网膜感光细胞分化的研究进展

干细胞是一类具有多向分化潜能的细胞群,如胚胎干细胞(embryonic stem cell,ESC)、诱导多潜能干细胞(induced pluripotent stem cell,i PSC)等,可在特定的条件下向包括视网膜感光细胞在内的多种细胞分化。小分子化合物是一类由组织细胞合成、分泌的小分子多肽类因子,特定的小分子化合物可作用于干细胞诱导其向视网膜感光细胞分化。目前,对干细胞体外培养,通过使用不同的诱导培养方案,探索干细胞向视网膜感光细胞分化的研究成为热点。早期,研究者们主要在共培养条件下采用小分子化合物诱导ESC向视网膜感光细胞分化,随着研究的进展,逐渐开始探索在无共培养条件下小分子化合物诱导ESC向视网膜感光细胞的分化以及小分子化合物诱导i PSC向视网膜感光细胞的分化。本文主要就小分子化合物促进ESC和i PSC向视网膜感光细胞分化的研究进展进行综述。     

Role of Langerhans cells in the immunity of leishmaniasis

Immune response induced against Leishmania parasites is influenced by several factors, one of the most important being the type of Antigen Presenting Cell (APC). Langerhans cells, a subpopulation of APC, are sentinel cells for detecting invader microorganisms; they reside in skin tissues at levels where the phlebotomine fly vector inoculates Leishmania parasites. Presence of microorganisms can induce activation of Langerhans cells, leading to their maturation and migration towards lymph nodes. There, Langerhans cells present antigens to T cells for their subsequent activation and specific differentiation into effector cells. Early after a Leishmania infection, few T cells have been observed at sites of infection, suggesting that infected macrophages have little opportunity to locate T cells specific for elimination of Leishmania parasites. However, Langerhans cells may be the cells available to provide signals for the stimulation of parasite-specific T-cell responses in the lymph node and for inducing T-cell migration to the infected skin. Herein, the main characteristics of Langerhans cells are reviewed, with special emphasis on their participation in cutaneous inflammatory response. The role of these cells in infections caused by protozoan parasites of the Leishmania genus is discussed.     

Identification of stage-specific markers during differentiation of hair cells from mouse inner ear stem cells or progenitor cells in vitro

The induction of inner ear hair cells from stem cells or progenitor cells in the inner ear proceeds through a committed inner ear sensory progenitor cell stage prior to hair cell differentiation. To increase the efficacy of inducing inner ear hair cell differentiation from the stem cells or progenitor cells, it is essential to identify comprehensive markers for the stem cells/progenitor cells from the inner ear, the committed inner ear sensory progenitor cells and the differentiating hair cells to optimize induction conditions. Here, we report that we efficiently isolated and expanded the stem cells or progenitor cells from postnatal mouse cochleae, and induced the generation of inner ear progenitor cells and subsequent differentiation of hair cells. We profiled the gene expression of the stem cells or progenitor cells, the inner ear progenitor cells, and hair cells using aRNA microarray analysis. The pathway and gene ontology (GO) analysis of differentially expressed genes was performed. Analysis of genes exclusively detected in one particular cellular population revealed 30, 38, and 31 genes specific for inner ear stem cells, inner ear progenitor cells, and hair cells, respectively. We further examined the expression of these genes in vivo and determined that Gdf10+Ccdc121, Tmprss9+Orm1, and Chrna9+Espnl are marker genes specific for inner ear stem cells, inner ear progenitor cells, and differentiating hair cells, respectively. The identification of these marker genes will likely help the effort to increase the efficacy of hair cell induction from the stem cells or progenitor cells.