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1.
Since the osteopetrotic (op/op) mouse was demonstrated to have a mutation within the coding region of the CSF-1 gene itself, it serves as a model for investigating the differentiation mechanism of macrophage populations in the absence of functional CSF-1. The op/op mice were severely monocytopenic and showed marked reduction and abnormal differentiation of tissue macrophages. Osteoclasts as well as marginal metallophilic macrophages and marginal zone macrophages in the spleen were absent. Most of the tissue macrophages were reduced in number and ultrastructurally immature. However, the degree of reduction in numbers of macrophages in the mutant mice was variable among tissues, suggesting that the heterogeneity of macrophages was generated by their different dependency on CSF-1. After daily CSF-1 injection, the numbers of monocytes, tissue macrophages, and osteoclasts were remarkably increased, and the macrophages showed morphological maturation. However, the numbers of macrophages in the ovary, uterus, and synovial membrane were not increased. In the bone marrow, macrophage precursors detected by monoclonal antibody ER-MP58 proliferated and differentiated into preosteoclasts and osteoclasts. In the spleen, marginal metallophilic macrophages and marginal zone macrophages developed slowly. In this manner, CSF-1 plays an important role in the development, proliferation, and differentiation of certain tissue macrophage populations and osteoclasts. In the op/op mice, Kupffer cells proliferated, transformed into epithelioid cells and multinucleated giant cells, and participated in glucan-induced granuloma formation. In CSF-1-treated op/op mice, the process of granuloma formation was similar to that in normal littermates due to increased monocytopoiesis and monocyte influx into the granulomas. These results indicate that CSF-1 is a potent inducer of the development and differentiation of CSF-1-dependent monocyte/macrophages, and that CSF-1-independent macrophages also play an important role in granuloma formation. Mol Reprod Dev 46:85–91, 1997. © 1997 Wiley Liss, Inc.  相似文献   

2.
Correlative evidence suggests that maternal production of the mononuclear phagocyte growth factor colony stimulating factor-1 (CSF-1) regulates placental development. In order to study the role of CSF-1 in pregnancy the fertility of CSF-1-less osteopetrotic (op/op) mutant mice was investigated. Homozygous mutant crosses (op/op x op/op) were consistently infertile. As expected, op/op males were almost completely fertile when crossed with heterozygous females. Surprisingly, op/op females when mated to heterozygote males were fertile, although at a rate that was 46% of the rate for +/op females x op/op males. These data suggest that CSF-1 is required for pregnancy. However, a maternal CSF-1 source is not absolutely necessary in that pregnancies involving +/op fathers were partially rescued, suggesting that +/op fetuses and/or +/op seminal fluid provides CSF-1 or CSF-1-induced factors which compensate for the absence of maternally produced CSF-1. Despite the complete absence of CSF-1 in the uterus and placenta of op/op mice placental weights were normal, suggesting that proliferation of decidual cells and trophoblasts, both of which express the CSF-1 receptor, may not be solely regulated by CSF-1. Histochemical staining for F4/80 antigen was used to identify macrophages in the uterus and placenta. Uterine macrophages could not be detected in virgin op/op mice although they were abundant in +/op uteri. Interestingly, macrophages could be detected in op/op uteri as uncharacteristically rounded cells in early gestation, however, they were not maintained and no macrophages were apparent beyond Day 14 of pregnancy in op/op mice. Further studies in the osteopetrotic mouse will be useful in delineating those functions required for pregnancy that are regulated by CSF-1.  相似文献   

3.
The osteopetrotic (op/op) mutant mouse possesses an inactivating mutation in the colony-stimulating factor-1 (CSF-1) gene, which results in the absence of certain macrophages and in osteopetrosis, following a lack of osteoclasts. Studies of the op/op mouse indicate that CSF-1-dependent tissue macrophages may belong to a trophic and/or scavenger subpopulation, which through their effect on other cell types can significantly affect tissue functions, and that cells which are CSF-1 independent have antigen presentation and immunological functions.We have previously identified a cell system of regularly distributed macrophages in the muscularis externa of the small intestine and wanted to extend these studies to the op/op mouse.The present investigations with light- and electron-microscopic methods using fluorescent dextran, methylene blue and immunohistochemistry (F4/80, anti-kit receptor, anti-CD3, anti-CD45R/B220) show that macrophages are absent from the muscle layers, with only an occasional macrophage present in the subserosa. In the lamina propria and submucosa, macrophage numbers are reduced. In all other respects the muscularis externa appears normal, including normal organization and number of interstitial cells of Cajal. Control and op/op mice both lack cells expressing CD3 (T lymphocytes), CD45R/B220 (B lymphocytes) and mast cells in the muscularis externa. This leaves the muscularis externa macrophages as the most likely source of local cytokine production under such conditions as postoperative ileus and intussusception in infants, where the muscularis externa appears to be one target of cytokines. We conclude that the lack of macrophages, combined with the preservation of otherwise normal structure, will make the op/op mouse a valuable model by which to assess the functions and relative importance of the muscularis externa macrophages in relation to intestinal motility under normal and pathological conditions.  相似文献   

4.
It has been previously demonstrated that macrophage colony stimulating factor (CSF-1) is produced by uterine epithelial cells in response to estrogen and progesterone. Studies in normal and op/op mice demonstrated that accumulation of a portion of the uterine macrophage population could be attributed to the chemotactic properties of CSF-1. Op/op mice exhibit greatly reduced rates of fertility, but successful pregnancy is not completely blocked. Also, uteri from op/op mice are not completely macrophage deficient. There are two possible explanations for this. One is that not all tissue macrophages are recruited from the bone marrow pool; some may be derived from primitive mesenchyme. Alternatively, tissue macrophages may be recruited from the bone marrow pool through expression of other type I chemokines such as JE, RANTES, MIP-1α, MIP-1β, IP-10, and KC. Both RANTES and JE are expressed at higher levels than CSF-1 during early pregnancy. The variable expression and relative role of these various chemokines in pregnancy was addressed by measuring mRNA expression during the first 8 days of pregnancy and in a pseudopregnant model. The expression of these various genes relative to macrophage numbers and macrophage distribution will be discussed. The relative role of these various factors in preparing the uterus for blastocyst implantation will be discussed. Mol Reprod Dev 46:62–70, 1997. © 1997 Wiley-Liss, Inc.  相似文献   

5.
6.
Summary Some electrophysiological characteristics of macrophages and macrophage polykaryons of foreign body granuloma have been investigated. Cells were obtained from implants of small coverslips in the subcutaneous tissue or in the peritoneal cavity of rats and mice. Transmembrane potentials ranged from –5 to –40 mV. Input resistances ranged from 5 to 120 M, being significantly higher in mice polykaryons. Approximately 10% of the cells exhibited spontaneous slow membrane hyperpolarizations (SH) indistinguishable from those observed in macrophages. SH responses were invariably evoked by iontophoretic injection of calcium ions into the cytoplasm of mice macrophages or macrophage polykaryons. The amplitude of these responses increased with the amount of current carried by calcium ions into the cells. The maximum amplitude of the calcium-induced SH responses is a linear function of the logarithm of [K+] 0 (from 3 to 40mm). The slope of the regression line is 43 mV for a 10-fold increase in [K+] 0 . Substituting sodium chloride by sodium isethionate or by choline chloride does not interfere with the occurrence of SH. The assumption that the SH is solely a consequence of an increase in the membrane conductance to K+ was used to calculate the potassium equilibrium potential (E K). TheE K value is also a linear function of the logarithm of [K+] 0 (from 3 to 40mm). The slope of the regression line is 46 mV for a 10-fold increase in [K+] 0 . These results constitute evidence of the calcium dependence of K+ permeability during SH both in macrophages and macrophage polykaryons. Macrophage polykaryons are a more convenient model than macrophages for the study of the mechanisms underlying the SH responses and their possible physiological implications.  相似文献   

7.
Previous studies have shown that colony stimulating factor-1 (CSF-1) deficiency dramatically reduced atherogenesis in mice. In this report we investigate this mechanism and explore a therapeutic avenue based on inhibition of CSF-1 signaling. Lesions from macrophage colony stimulating factor-1 (Csf1)+/− mice showed increased numbers of apoptotic macrophages, decreased overall macrophage content, and inflammation. In vitro studies indicated that CSF-1 is chemotactic for monocytes. Bone marrow transplantation studies suggested that vascular cell-derived, rather than macrophage-derived, CSF-1 is responsible for the effect on atherosclerosis. Consistent with previous studies, CSF-1 affected lesion development in a dose-dependent manner, suggesting that pharmacological inhibition of CSF-1 might achieve similar results. Indeed, we observed that treatment of hyperlipidemic mice with a CSF-1 receptor kinase inhibitor inhibited plaque progression. This observation was accompanied by a reduction in the expression of adhesion factors (ICAM-1), macrophage markers (F4/80), inflammatory cytokines (Il-6, Il-1β), and macrophage matrix degradation enzymes (MMP-9). We conclude that the M-CSF pathway contributes to monocyte recruitment and macrophage survival and that this pathway is a potential target for therapeutic intervention.  相似文献   

8.
《Bone and mineral》1989,5(3):271-278
Because of its synchrony and relative homogeneity, the subcutaneous model of the resorption of mineral-containing, devitalized bone particles (BPs) is useful to evaluate the recruitment, differentiation, and activity of bone-resorbing, osteoclastic cells. Bone particles were prepared from normal rats or mice and were implanted in normal and osteopetrotic rats (ia, tl, op strains) or mice (mi strain). In addition, particles of microcrystalline hydroxyapatite or polymethylmethacrylate were implanted into tl and op mutants and their unaffected littermates.Non-decalcified histomorphometry of elicited tissues after 12 days revealed significantly less resorption in in each mutant. Enzyme histochemical assays revealed that only normal animals showed tartrate-resistant acid phosphatase-positive cells around the BPs. In agreement with this, only normal animals showed ruffled borders against the BPs. op and tl strains were tested for generation of foreign body giant cells in response to particulate hydroxyapatite or polymethylmethacrylate and no differences were found between mutant and normal animals. These mutants appear to have intact fusion of mononuclear progenitors.These data show impaired recruitment of osteoclasts by BP implants in several rodent strains of osteopetrotic mutants.  相似文献   

9.
We previously reported that macrophage colony-stimulating factor (M-CSF, CSF-1) played important roles in the process of the repopulation of Kupffer cells after their elimination by administration of liposome-entrapped dichloromethylene diphosphonate (lipo-MDP). In this study, we examined the repopulation of Kupffer cells and splenic red pulp macrophages in osteopetrotic (op/op) mice defective in the production of functional M-CSF and their littermate mice by using the lipo-MDP model. In untreated op/op mice, numbers of F4/80-positive Kupffer cells in the liver and F4/80-positive splenic red pulp macrophages were reduced. Repopulation of Kupffer cells and splenic macrophages was observed in littermate (op/+) mice liver by 14 days after depletion. However, in op/op mice, repopulation of Kupffer cells was not observed in Kupffer-cell-depleted op/op mice until 56 days after depletion, whereas splenic red pulp macrophages repopulated and recovered to the level of control op/op mice by 10 days after depletion. Single injection of M-CSF was effective for the induction of the repopulation of Kupffer cells, and daily administration of M-CSF induced remarkable repopulation and maturation of Kupffer cells and proliferation of macrophage precursor cells in the liver of Kupffer-cell-depleted op/op mice. These results suggest that Kupffer cells are completely M-CSF-dependent tissue macrophages, whereas splenic red pulp macrophages are composed of M-CSF-dependent macrophages and M-CSF-independent macrophages. This mouse model provides a useful tool for the study of effects of growth factor on Kupffer cell differentiation in vivo. This study was supported in part by Grants-in-Aid for Scientific Research from the Ministry of Education, Science, and Culture of Japan, NIH grant CA20408, and a Tsukada Memorial Grant (2000).  相似文献   

10.
Mammary gland development initiates postnatally with the development of terminal end buds (TEBs) at the end of the rudimentary ducts. These grow out through the fat pad and bifurcate to lay down the rudimentary ductal tree. At the initiation of their development, TEBs recruit to their surrounding stroma a substantial population of macrophages. Using mice homozygous for a null mutation in the gene for the macrophage growth factor, colony stimulating factor-1 (CSF-1), that are severely depleted in macrophages, we demonstrated that CSF-1-regulated macrophages are required for normal branching morphogenesis in the mammary gland. However, these mice have a pleiotropic phenotype as a result of the generalized macrophage deficiency. To test that the effect of the mutation observed in the mammary gland was organ-autonomous, we developed a tetracycline-binary system whereby CSF-1 was specifically expressed in the mammary epithelium under the regulation of the MMTV-promoter. This restored mammary macrophage populations but not those in other tissues and corrected the branching morphogenesis defect. Inhibition of CSF-1 expression by tetracycline treatment for varying periods suggested that CSF-1-regulated macrophages are required throughout early mammary gland development. These data show that macrophages acting locally are required for branching morphogenesis of the mammary gland.  相似文献   

11.
The inflammatory response is driven by signals that recruit and elicit immune cells to areas of tissue damage or infection. The concept of a mononuclear phagocyte system postulates that monocytes circulating in the bloodstream are recruited to inflamed tissues where they give rise to macrophages. A recent publication demonstrated that the large increase in the macrophages observed during infection was the result of the multiplication of these cells rather than the recruitment of blood monocytes. We demonstrated previously that B-1 cells undergo differentiation to acquire a mononuclear phagocyte phenotype in vitro (B-1CDP), and we propose that B-1 cells could be an alternative origin for peritoneal macrophages. A number of recent studies that describe the phagocytic and microbicidal activity of B-1 cells in vitro and in vivo support this hypothesis. Based on these findings, we further investigated the differentiation of B-1 cells into phagocytes in vivo in response to LPS-induced inflammation. Therefore, we investigated the role of B-1 cells in the composition of the peritoneal macrophage population after LPS stimulation using osteopetrotic mice, BALB/Xid mice and the depletion of monocytes/macrophages by clodronate treatment. We show that peritoneal macrophages appear in op/op((-/-)) mice after LPS stimulation and exhibit the same Ig gene rearrangement (VH11) that is often found in B-1 cells. These results strongly suggest that op/op((-/-)) peritoneal "macrophages" are B-1CDP. Similarly, the LPS-induced increase in the macrophage population was observed even following monocyte/macrophage depletion by clodronate. After monocyte/macrophage depletion by clodronate, LPS-elicited macrophages were observed in BALB/Xid mice only following the transfer of B-1 cells. Based on these data, we confirmed that B-1 cell differentiation into phagocytes also occurs in vivo. In conclusion, the results strongly suggest that B-1 cell derived phagocytes are a component of the LPS-elicited peritoneal macrophage population.  相似文献   

12.
13.
Kidney tubular epithelial cell (TEC) death may be dependent on the number and activation state of macrophages (M phi) during inflammation. Our prior studies indicate that activated M phi release soluble mediators that incite TEC death, and reducing intrarenal M phi during kidney disease diminishes TEC apoptosis. CSF-1 is required for M phi proliferation and survival. We hypothesized that in the absence of CSF-1, M phi-mediated TEC apoptosis would be prevented during renal inflammation. To test this hypothesis, we evaluated renal inflammation during unilateral ureter obstruction in CSF-1-deficient (Csf1(op)/Csf1(op)) mice. We detected fewer M phi and T cells and less apoptotic TEC in the obstructed kidneys of Csf1(op)/Csf1(op) mice compared with wild-type (WT) mice. The decrease in intrarenal M phi resulted from diminished recruitment and proliferation, not enhanced apoptosis. CSF-1 enhanced M phi activation. There were far fewer activated (CD69, CD23, Ia, surface expression) M phi in obstructed CSF-1-deficient compared with WT obstructed kidneys. Similarly, bone marrow M phi preincubated with anti-CSF-1 receptor Ab or anti-CSF-1 neutralizing Ab were resistant to LPS- and IFN-gamma-induced activation. We detected fewer apoptotic-inducing molecules (reactive oxygen species, TNF-alpha, inducible NO synthase) in 1) M phi propagated from obstructed Csf1(op)/Csf1(op) compared with WT kidneys, and 2) WT bone marrow M phi blocked with anti-CSF-1 receptor or anti-CSF-1 Ab compared with the isotype control. Furthermore, blocking CSF-1 or the CSF-1 receptor induced less TEC apoptosis than the isotype control. We suggest that during renal inflammation, CSF-1 mediates M phi recruitment, proliferation, activation, and, in turn, TEC apoptosis.  相似文献   

14.
Colony-stimulating factor-1 (CSF-1), also known as macrophage colony-stimulating factor, controls the survival, proliferation, and differentiation of mono-nuclear phagocytes and regulates cells of the female reproductive tract. It appears to play an autocrine and/or paracrine role in cancers of the ovary, endometrium, breast, and myeloid and lymphoid tissues. Through alternative mRNA splicing and differential post-translational proteolytic processing, CSF-1 can either be secreted into the circulation as a glycoprotein or chondroitin sulfate-containing proteoglycan or be expressed as a membrane-spanning glycoprotein on the surface of CSF-1-producing cells. Studies with the op/op mouse, which possesses an inactivating mutation in the CSF-1 gene, have established the central role of CSF-1 in directly regulating osteoclastogenesis and macrophage production. CSF-1 appears to preferentially regulate the development of macrophages found in tissues undergoing active morphogenesis and/or tissue remodeling. These CSF-1 dependent macrophages may, via putative trophic and/or scavenger functions, regulate characteristics such as dermal thickness, male fertility, and neural processing. Apart from its expression on mononuclear phagocytes and their precursors, CSF-1 receptor (CSF-1R) expression on certain nonmononuclear phagocytic cells in the female reproductive tract and studies in the op/op mouse indicate that CSF-1 plays important roles in female reproduction. Restoration of circulating CSF-1 to op/op mice has preliminarily defined target cell populations that are regulated either humorally or locally by the synthesis of cell-surface CSF-1 or by sequestration of the CSF-1 proteoglycan. The CSF-1R is a tyrosine kinase encoded by the c-fms proto-oncogene product. Studies by several groups have used cells expressing either the murine or human CSF-1R in fibroblasts to pinpoint the requirement of kinase activity and the importance of various receptor tyrosine phosphorylation sites for signaling pathways stimulated by CSF-1. To investigate post-CSF-1R signaling in the macrophage, proteins that are rapidly phosphorylated on tyrosine in response to CSF-1 have been identified, together with proteins associated with them. Studies on several of these proteins, including protein tyrosine phosphatase 1C, the c-cbl proto-oncogene product, and protein tyrosine phosphatase-phi are discussed. Mol Reprod Dev 46:4–10, 1997. © 1997 Wiley-Liss, Inc.  相似文献   

15.
Osteopetrosis is an inherited metabolic disease characterized by an excessive accumulation of bone. This is associated with an osteoclast deficiency. Osteopetrosis is always accompanied by the failure and/or delay of tooth eruption. The present study was conducted to examine in detail the morphological and histological changes of growth of the third molars in the osteopetrosis (op/op) mouse. At the age of 10 days, normal and op/op mice showed no detectable difference in the shape of the third molar follicles. However, the third molars in the op/op mouse became obscured by the proliferation of neighboring bone trabeculae. Moreover, no tartrate-resistant acid phosphatase-positive cells were detected on the bone surfaces of 10-day-old op/op mice. Ankylosis between the root dentin and proliferating bone trabeculae was a common feature in the 20- and 30-day-old op/op mice. The third molars erupted into the oral cavity before the age of 30 days in normal mice, and the crowns, roots, and periodontal ligaments appeared well developed. Throughout the experiment, it seemed that the primary cause of the microdontia and ankylosis of the developing root in the mutant mouse was a deficiency of osteoclasts, with attendant lack of bone remodeling.  相似文献   

16.
Mice null for the T-cell protein tyrosine phosphatase (Tcptp-/-) die shortly after birth due to complications arising from the development of a systemic inflammatory disease. It was originally reported that Tcptp-/- mice have increased numbers of macrophages in the spleen; however, the mechanism underlying the aberrant growth and differentiation of macrophages in Tcptp-/- mice is not known. We have identified Tcptp as an important regulator of colony-stimulating factor 1 (CSF-1) signaling and mononuclear phagocyte development. The number of CSF-1-dependent CFU is increased in Tcptp-/- bone marrow. Tcptp-/- mice also have increased numbers of granulocyte-macrophage precursors (GMP), and these Tcptp-/- GMP yield more macrophage colonies in response to CSF-1 relative to wild-type cells. Furthermore, we have identified the CSF-1 receptor (CSF-1R) as a physiological target of Tcptp through substrate-trapping experiments and its hyperphosphorylation in Tcptp-/- macrophages. Tcptp-/- macrophages also have increased tyrosine phosphorylation and recruitment of a Grb2/Gab2/Shp2 complex to the CSF-1R and enhanced activation of Erk after CSF-1 stimulation, which are important molecular events in CSF-1-induced differentiation. These data implicate Tcptp as a critical regulator of CSF-1 signaling and mononuclear phagocyte development in hematopoiesis.  相似文献   

17.
Macrophages can undergo cell-cell fusion, leading to the formation of multinucleated giant cells and osteoclasts. This process is believed to promote the proteolytic activity of macrophages toward pathogens, foreign bodies, and extracellular matrices. Here, we examined the role of PTP-PEST (PTPN12), a cytoplasmic protein tyrosine phosphatase, in macrophage fusion. Using a macrophage-targeted PTP-PEST-deficient mouse, we determined that PTP-PEST was not needed for macrophage differentiation or cytokine production. However, it was necessary for interleukin-4-induced macrophage fusion into multinucleated giant cells in vitro. It was also needed for macrophage fusion following implantation of a foreign body in vivo. Moreover, in the RAW264.7 macrophage cell line, PTP-PEST was required for receptor activator of nuclear factor kappa-B ligand (RANKL)-triggered macrophage fusion into osteoclasts. PTP-PEST had no impact on expression of fusion mediators such as β-integrins, E-cadherin, and CD47, which enable macrophages to become fusion competent. However, it was needed for polarization of macrophages, migration induced by the chemokine CC chemokine ligand 2 (CCL2), and integrin-induced spreading, three key events in the fusion process. PTP-PEST deficiency resulted in specific hyperphosphorylation of the protein tyrosine kinase Pyk2 and the adaptor paxillin. Moreover, a fusion defect was induced upon treatment of normal macrophages with a Pyk2 inhibitor. Together, these data argue that macrophage fusion is critically dependent on PTP-PEST. This function is seemingly due to the ability of PTP-PEST to control phosphorylation of Pyk2 and paxillin, thereby regulating cell polarization, migration, and spreading.  相似文献   

18.
19.
We have shown that chick macrophages express RANK at their surface and human RANKL (hRANKL) triggers the formation of osteoclasts able to degrade dentine. As described for mammalian osteoclasts, hRANKL also stimulates the resorbing activity of chick bone-derived osteoclasts. In other hands, in culture, chick macrophages spontaneously form polykaryons sharing most of the osteoclast markers but unable to resorb bone. Since both bone-resorbing osteoclasts and macrophage polykaryons found in inflammatory tissues are multinucleated cells deriving from the fusion of macrophages, we examined whether macrophage polykaryons could be induced toward bone-resorbing osteoclasts. Long-term exposure of macrophage polykaryons to hRANKL failed to activate any resorbing activity, indicating that although deriving from the same precursors macrophage polykaryons and osteoclasts are independent cell types and polykaryons are not immature osteoclasts.  相似文献   

20.
We previously reported a dramatically increased number of macrophages in tumor-bearing mice. In this study, we investigated the involvement of CSF in that phenomenon. CSF-1 responding cells as macrophages precursors increased significantly in number in the spleens of tumor-bearing mice as compared with those in normal mice. Splenic cells and sera from the tumor-bearing mice respectively expressed CSF-1 in mRNA and serum protein levels, but failed to express the other CSF (granulocyte-macrophage-CSF or IL-3). Nonadherent splenic mononuclear cells (< 0.5% macrophages) from normal mice proliferated and differentiated into mature macrophages in culture within 7 days with recombinant mouse CSF-1 (rCSF-1). Both macrophages harvested from tumor-bearing mice and those activated in vitro with rCSF-1 expressed mostly Mac-1, -2 (and -3) Ag, showed yeast phagocytosis, produced IL-1 but not IL-2 or IL-3, and displayed potent cytotoxicity against NK cell resistant Meth-A tumor cells. These macrophages also expressed lipocortin I mRNA and secreted lipocortin I protein, and suppressed mitogenic responses of splenic lymphocytes. rCSF-1-activated macrophages derived from nonadherent splenic cells expressed both CSF-1 and CSF-1 receptor (c-fms) mRNA. Administration of rCSF-1 into normal mice induced hemopoietic and immunologic alternations similar to those observed in tumor-bearing mice. These results suggest that CSF-1 is involved in the dramatic increase of macrophages in tumor-bearing mice, possibly through an autocrine or paracrine loop.  相似文献   

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