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1.
Rahimi Syaidah Kotaro Horiguchi Ken Fujiwara Takehiro Tsukada Motoshi Kikuchi Takashi Yashiro 《Cell and tissue research》2013,354(2):633-638
The anterior pituitary is a complex organ consisting of five types of hormone-producing cells, non–hormone-producing cells such as folliculostellate (FS) cells and vascular cells (endothelial cells and pericytes). We have previously shown that FS cells and pericytes produce fibromodulin, a small leucine-rich proteoglycan (SLRP). SLRPs are major proteoglycans of the extracellular matrix (ECM) and are important in regulating cell signaling pathways and ECM assembly. However, the mechanism regulating fibromodulin expression in the anterior pituitary has not been elucidated. Here, we investigate whether fibromodulin expression is modulated by major anterior pituitary ECM components such as laminin and type I collagen. Using transgenic rats expressing green fluorescent protein (GFP) specifically in FS cells, we examine fibromodulin expression in GFP-positive (FS cells) and GFP-negative cells (e.g., pericytes, endocrine cells and endothelial cells). Immunostaining and Western blot analysis were used to assess protein expression in the presence and absence of laminin or type I collagen. We confirmed fibromodulin expression in the pituitary and observed the up-regulation of fibromodulin in FS cells in the presence of ECM components. However, neither laminin nor type I collagen affected expression in GFP-negative cells. This suggests that laminin and type I collagen support the function of FS cells by increasing fibromodulin protein expression in the anterior pituitary. 相似文献
2.
Nagai Y Nochi T Watanabe K Watanabe K Aso H Kitazawa H Matsuzaki M Ohwada S Yamaguchi T 《Cell and tissue research》2005,322(3):455-462
A pro-inflammatory cytokine, interleukin 18 (IL-18), induces intracellular expression of IL-1 and the release of IL-6. IL-1
and IL-6 has been detected in anterior pituitary cells, suggesting that IL-18 is produced in anterior pituitary cells and
may serve to aid immuno-endocrine regulation. In the present study, we addressed this hypothesis by investigating the intracellular
localization of IL-18 and its receptor in bovine anterior pituitary gland. IL-18 mRNA and its protein were detected in the
anterior pituitary gland by RT-PCR and Western blotting. In situ hybridization showed that IL-18 mRNA was expressed in the
anterior pituitary cells. Immunohistochemistry of IL-18 and specific hormones revealed the presence of IL-18 in somatotrophs.
Furthermore, the expression of GH mRNA in IL-18 immunoreactive cells was confirmed by immuno-laser microdissection. These
results first demonstrated that somatotrophs produced IL-18. Subsequently, the distribution of the IL-18 receptor alpha (IL-18Rα)
was investigated in order to understand IL-18 signaling among the anterior pituitary cells. Bovine IL-18Rα cDNA was partially
sequenced and detected in the anterior pituitary gland by RT-PCR. Immunohistochemistry of IL-18Rα, IL-18 and GH showed that
IL-18Rα was co-localized in IL-18 immunoreactive cells or somatotrophs. These data suggest that IL-18 acts on somatotrophs
as an immuno-endocrine mediator through the autocrine pathway.
This work was supported by a Grant-in-Aid for Scientific Research (B) (No.13460122) from the Ministry of Education, Science
and Culture of Japan 相似文献
3.
During periodontal regeneration, multiple cell types can invade the wound site, thereby leading to repair. Cell motility requires
interactions mediated by integrin receptors for the extracellular matrix (ECM), which might be useful in guiding specific
cell populations into the periodontal defect. Our data demonstrate that fibroblasts exhibit differential motility when grown
on ECM proteins. Specifically, gingival fibroblasts are twice as motile as periodontal ligament fibroblasts, whereas osteoblasts
are essentially non-motile. Collagens promote the greatest motility of gingival fibroblasts in the following order: collagen
III>collagen V>collagen I. Differences in motility do not correlate with cell proliferation or integrin expression. Osteoblasts
display greater attachment to collagens than does either fibroblast population, but lower motility. Gingival fibroblast motility
on collagen I is generally mediated by α2 integrins, whereas motility on collagen III involves α1 integrins. Other integrins
(α10 or α11) may also contribute to gingival fibroblast motility. Thus, ECM proteins do indeed differentially promote the
cell motility of periodontal cells. Because of their greater motility, gingival fibroblasts have more of a potential to invade
periodontal wound sites and to contribute to regeneration. This finding may explain the formation of disorganized connective
tissue masses rather than the occurrence of the true regeneration of the periodontium.
This research was supported by the Louisiana Board of Regents through the Millennium Trust Health Excellence Fund, HEF-(2000-05)-04. 相似文献
4.
Integrins are cell adhesion receptors that are evolutionary old and that play important roles during developmental and pathological
processes. The integrin family is composed of 24 αβ heterodimeric members that mediate the attachment of cells to the extracellular
matrix (ECM) but that also take part in specialized cell-cell interactions. Only a subset of integrins (8 out of 24) recognizes
the RGD sequence in the native ligands. In some ECM molecules, such as collagen and certain laminin isoforms, the RGD sequences
are exposed upon denaturation or proteolytic cleavage, allowing cells to bind these ligands by using RGD-binding receptors.
Proteolytic cleavage of ECM proteins might also generate fragments with novel biological activity such as endostatin, tumstatin,
and endorepellin. Nine integrin chains contain an αI domain, including the collagen-binding integrins α1β1, α2β1, α10β1, and
α11β1. The collagen-binding integrins recognize the triple-helical GFOGER sequence in the major collagens, but their ability
to recognize these sequences in vivo is dependent on the fibrillar status and accessibility of the interactive domains in
the fibrillar collagens. The current review summarizes some basic facts about the integrin family including a historical perspective,
their structure, and their ligand-binding properties. 相似文献
5.
Role of extracellular matrix and its regulators in human airway smooth muscle biology 总被引:3,自引:0,他引:3
Parameswaran K Willems-Widyastuti A Alagappan VK Radford K Kranenburg AR Sharma HS 《Cell biochemistry and biophysics》2006,44(1):139-146
Altered extracellular matrix (ECM) deposition contributing to airway wall remodeling is an important feature of asthma and
chronic obstructive pulmonary disease (COPD). The molecular mechanisms of this process are poorly understood. One of the key
pathological features of these diseases is thickening of airway walls. This thickening is largely to the result of airway
smooth muscle (ASM) cell hyperplasia and hypertrophy as well as increased deposition of ECM proteins such as collagens, elastin,
laminin, and proteoglycans around the smooth muscle. Many growth factors and cytokines, including fibroblast growth factor
(FGF)-1, FGF-2, and transforming growth factor (TGF)-α1, that are released from the airway wall have the potential to contribute to airway remodeling, revealed by enhanced ASM proliferation
and increased ECM protein deposition. TGF-α1 and FGF-1 stimulate mRNA expression of collagen I and III in ASM cells, suggesting their role in the deposition of extracellular
matrix proteins by ASM cells in the airways of patients with chronic lung diseases. Focus is now on the bidirectional relationship
between ASM cells and the ECM. In addition to increased synthesis of ECM proteins, ASM cells can be involved in downregulation
of matrix metalloproteinases (MMPs) and upregulation of tissue inhibitors of metalloproteinases (TIMPs), thus eventually contributing
to the alteration in ECM. In turn, ECM proteins promote the survival, proliferation, cytokine synthesis, migration, and contraction
of human airway smooth muscle cells. Thus, the intertwined relationship of ASM and ECM and their response to stimuli such
as chronic inflammation in diseases such as asthma and COPD contribute to the remodeling seen in airways of patients with
these diseases. 相似文献
6.
Y Osaki M Tsunoi Y Hakeda K Kurisu M Kumegawa 《The journal of histochemistry and cytochemistry》1984,32(11):1231-1233
The alteration of collagen components in clone MC3T3-E1 cells by epidermal growth factor (EGF) was investigated immunocytochemically, using antibodies to type I and type III collagens. EGF transformed those cells that had become more slender than those of control cultures. Type I and type III collagens were observed in the same cells in both EGF-treated and control cultures. Type I collagen was decreased by EGF, whereas type III collagen appeared to be increased. However, no cells with only type III collagen were observed, suggesting that EGF influences collagen metabolism in clone MC3T3-E1 cells. 相似文献
7.
8.
Summary The collateral ligaments can be clearly distinguished in the 25-day fetal rabbit knee joint. Types I and V collagens are present
in the extracellular matrix between the cells of the lateral and medial collateral ligaments and this distribution persists
until the rabbit is skeletally mature. From 8 months onwards type III collagen is also present, particularly around the cells.
Type I collagen mRNA is expressed by the cells from the 25-day fetal to 8-month-old adult ligament. The ligament sheath is
composed of types III and V collagens. The cruciate ligaments are present between the femur and tibia in the 20-day fetus.
The matrix is composed of types I and V collagens from the 25-day fetus until at 12- to 14-weeks postnatal, type III collagen
appears in the pericellular regions together with type V. At 8 months and 2 years, the amount of type III collagen has increased.
All the cells express the mRNA for type I collagen at 12- to 14-weeks, but only isolated cells express this mRNA at 8 months.
Thus, both the collateral and cruciate ligaments undergo changes in their complement of collagens during postnatal development
and ageing. The implications of these complex interactions of different types of collagen are discussed in relation to healing
and the surgical replacement of torn ligaments by tendons. 相似文献
9.
Valrie Bizot-Foulon Brigitte Bouchard William Hornebeck Louis Dubertret Brigitte Bertaux 《Cell biology international》1995,19(2):129-136
In vitro human skin fibroblasts aging was characterized by a continuous increase of collagenase mRNA levels. On the contrary, TIMP-1 mRNA level decreased only at late passages (> 65% of proliferative life span). Type I and III mRNA levels showed a high variability depending on cell strains studied. However, type I and III collagen expressions varied parallely. All-trans retinoic acid (RA) decreased collagenase expression and stimulated TIMP-1 expression. Under RA action, high variability in mRNAs levels encoding type I and III collagens was observed with HSF passages. However, RA tended to correct variations in collagens expressions observed along HSF life span. 相似文献
10.
M. B. Andujar D. J. Hartmann H. Emonard H. Magloire 《Histochemistry and cell biology》1988,88(2):131-140
Summary The distribution and synthesis of type I and type III collagens in the mouse molar tooth root have been investigated by correlating light and electron immunohistochemical data. Purified rabbit antibodies were raised against mouse type I and type III collagens and indirect immunoperoxidase procedures were used. In these conditions, predentin, pre-bone, and pre-acellular cementum were intensely immunostained for type I collagen. Both optic and ultrastructural data confirmed the presence of type I collagen at the epithelio-mesenchymal junction, but Hertwig's basement membranes remained unlabelled. The odontoblasts including the short polarized ones, osteoblasts, some cells of pulp mesenchyme and the perifollicular cells possessed type I collagen immunoreactivity in the rough endoplasmic reticulum (RER), Golgi complex and the secretory vesicles.Type III collagen immunoreactivity was strong in the perifollicular mesenchyme, light in the pulp mesenchyme and absent from the epithelio-mesenchymal junction, the predentin, pre-bone and pre-acellular cementum. Intracellular immunolabelling was detected at the ultrastructural level in the perifollicular cells by a faint homogeneous peroxidase deposit in the RER cisternae.Finally, these results, compared with previous biochemical and morphological data, represent the first dynamic aspect of collagens distribution and synthesis in the mouse molar root development. In terms of cell differentiation, our data also suggest that type III collagen synthesis does not occur during the odontoblast process of differentiation. 相似文献
11.
12.
Bianchetti L Barczyk M Cardoso J Schmidt M Bellini A Mattoli S 《Journal of cellular and molecular medicine》2012,16(3):483-495
The fibrocytes are thought to serve as a source of newly deposited collagens I and III during reparative processes and in certain fibrotic disorders, but their matrix remodelling properties are incompletely understood. We evaluated their ability to produce several extracellular matrix (ECM) components, in comparison with fibroblasts, and to participate in collagen turnover. The collagen gene expression profile of fibrocytes differed from that of fibroblasts because fibrocytes constitutively expressed relatively high levels of the mRNA encoding collagen VI and significantly lower levels of the mRNA encoding collagens I, III and V. The proteoglycan (PG) gene expression profile was also different in fibrocytes and fibroblasts because fibrocytes constitutively expressed the mRNA encoding perlecan and versican at relatively high levels and the mRNA encoding biglycan and decorin at low and very low levels, respectively. Moreover, fibrocytes expressed the mRNA for hyaluronan synthase 2 at higher level than fibroblasts. Significant differences between the two cell populations were also demonstrated by metabolic labelling and analysis of the secreted collagenous proteins, PGs and hyaluronan. Fibrocytes constitutively expressed the scavenger receptors CD163 and CD204 as well as the mannose receptors CD206 and Endo180, and internalized and degraded collagen fragments through an Endo180-mediated mechanism. The results of this study demonstrate that human fibrocytes exhibit ECM remodelling properties previously unexplored, including the ability to participate in collagen turnover. The observed differences in collagen and PG expression profile between fibrocytes and fibroblasts suggest that fibrocytes may predominantly have a matrix-stabilizing function. 相似文献
13.
Naugle JE Olson ER Zhang X Mase SE Pilati CF Maron MB Folkesson HG Horne WI Doane KJ Meszaros JG 《American journal of physiology. Heart and circulatory physiology》2006,290(1):H323-H330
Cardiac fibroblast (CF) proliferation and differentiation into hypersecretory myofibroblasts can lead to excessive extracellular matrix (ECM) production and cardiac fibrosis. In turn, the ECM produced can potentially activate CFs via distinct feedback mechanisms. To assess how specific ECM components influence CF activation, isolated CFs were plated on specific collagen substrates (type I, III, and VI collagens) before functional assays were carried out. The type VI collagen substrate potently induced myofibroblast differentiation but had little effect on CF proliferation. Conversely, the type I and III collagen substrates did not affect differentiation but caused significant induction of proliferation (type I, 240.7 +/- 10.3%, and type III, 271.7 +/- 21.8% of basal). Type I collagen activated ERK1/2, whereas type III collagen did not. Treatment of CFs with angiotensin II, a potent mitogen of CFs, enhanced the growth observed on types I and III collagen but not on the type VI collagen substrate. Using an in vivo model of myocardial infarction (MI), we measured changes in type VI collagen expression and myofibroblast differentiation after post-MI remodeling. Concurrent elevations in type VI collagen and myofibroblast content were evident in the infarcted myocardium 20-wk post-MI. Overall, types I and III collagen stimulate CF proliferation, whereas type VI collagen plays a potentially novel role in cardiac remodeling through facilitation of myofibroblast differentiation. 相似文献
14.
Giovanni Candiano Rosanna Gusmano Paola Altieri Roberta Bertelli Fabrizio Ginevri Domenico A. Coviello Adalberto Sessa Gianluca Caridi Gian Marco Ghiggeri 《Virchows Archiv. B, Cell pathology including molecular pathology》1993,63(1):1-9
Cells from the cysts of patients with autosomal dominant polycystic kidney disease (PKD) were grown in vitro under standard
conditions without the aid of collagen-pretreated surfaces, and both the synthesis and composition of the extracellular matrix
were investigated. At confluence, PKD cells presented the typical features of epithelial cells, but showed a different collagen
composition from fibroblasts. Compared with normal tubular epithelia (NTE), PKD monolayers produced an excess of extracellular
matrix, which accounted for 30% of the total incorporation of [3H] proline, although this value was considerably lower (by a factor of 10) in the case of NTE. Immunohistochemical and electrophoretic
techniques revealed a complex collagen composition in the extracellular matrix which included [α(III)]3 and collagen IV. However, part of the collagen components remained unidentified in spite of the fact that they exhibited
a typical Mr of α1(I) and α2(I) in the presence of urea. Immunoprecipitation with monospecific antibodies and Northern blotting with specific probes failed
to recognize α1(I) and α2(I), but demonstrated their presence in fibroblasts. Purification and cyanogen bromide digestion demonstrated a strong interhomology
in fingerprint peptide composition among the uncharacterized collagens synthesized by PKD cells, thus suggesting a common
identity. These observations document a markedly augmented production of extracellular matrix by PKD cultured cells in vitro,
and show the presence of collagens which do not share homologies with the major collagen molecules. A better characterization
of extracellular matrix composition is central to any comprehension of the cystogenetic mechanisms in vivo. 相似文献
15.
Shynlova O Mitchell JA Tsampalieros A Langille BL Lye SJ 《Biology of reproduction》2004,70(4):986-992
Myometrial growth and remodeling during pregnancy depends on increased synthesis of interstitial matrix proteins. We hypothesize that the presence of mechanical tension in a specific hormonal environment regulates the expression of extracellular matrix (ECM) components in the uterus. Myometrial tissue was collected from pregnant rats on Gestational Days 0, 12, 15, 17, 19, 21, 22, 23 (labor), and 1 day postpartum and ECM expression was analyzed by Northern blotting. Expression of fibronectin, laminin beta2, and collagen IV mRNA was low during early gestation but increased dramatically on Day 23 during labor. Expression of fibrillar collagens (type I and III) peaked Day 19 and decreased near term. In contrast, elastin mRNA remained elevated from midgestation onward. Injection of progesterone (P4) on Days 20-23 (to maintain elevated plasma P4 levels) delayed the onset of labor, caused dramatic reductions in the levels of fibronectin and laminin mRNA, and prevented the fall of collagen III mRNA levels on Day 23. Treatment of pregnant rats with the progesterone receptor antagonist RU486 on Day 19 induced preterm labor on Day 20 and a premature increase in mRNA levels of collagen IV, fibronectin, and laminin. Analysis of the uterine tissue from unilaterally pregnant rats revealed that most of the changes in ECM gene expression occurred specifically in the gravid horn. Our results show a decrease in expression of fibrillar collagens and a coordinated temporal increase in expression of components of the basement membrane near term associated with decreased P4 and increased mechanical tension. These ECM changes contribute to myometrial growth and remodeling during late pregnancy and the preparation for the synchronized contractions of labor. 相似文献
16.
17.
X Y Han W Wang R Myllyl? P Virtanen J Karpakka T E Takala 《Journal of applied physiology》1999,87(1):90-96
There is evidence that immobilization causes a decrease in total collagen synthesis in skeletal muscle within a few days. In this study, early immobilization effects on the expression of prolyl 4-hydroxylase (PH) and the main fibrillar collagens at mRNA and protein levels were investigated in rat skeletal muscle. The right hindlimb was immobilized in full plantar flexion for 1, 3, and 7 days. Steady-state mRNAs for alpha- and beta-subunits of PH and type I and III procollagen, PH activity, and collagen content were measured in gastrocnemius and plantaris muscles. Type I and III procollagen mRNAs were also measured in soleus and tibialis anterior muscles. The mRNA level for the PH alpha-subunit decreased by 49 and 55% (P < 0.01) in gastrocnemius muscle and by 41 and 39% (P < 0.05) in plantaris muscle after immobilization for 1 and 3 days, respectively. PH activity was decreased (P < 0.05-0.01) in both muscles at days 3 and 7. The mRNA levels for type I and III procollagen were decreased by 26-56% (P < 0.05-0.001) in soleus, tibialis anterior, and plantaris muscles at day 3. The present results thus suggest that pretranslational downregulation plays a key role in fibrillar collagen synthesis in the early phase of immobilization-induced muscle atrophy. 相似文献
18.
M L Boy-Lefèvre J R Nefussi D Paulin D J Hartmann S Ricard-Blum D Herbage N Forest 《The journal of histochemistry and cytochemistry》1986,34(7):835-839
Collagen immunotyping by indirect immunofluorescence was performed in order to investigate the sequential development of bone formation. Osseous tumors were obtained after subcutaneous injection of 3/A/1D-1 teratocarcinoma cell line into 129/Sv mice (Nicolas et al., 1980). Frozen sections of developing tumors were incubated with specific antibodies directed against Types I, II, III, IV, and IX collagens. On Day 9, the expression of Type I and Type III collagens was correlated with the proliferation of mesenchymal cells. From Day 10, chondrogenesis was characterized by the occurrence of cartilaginous collagens, Types II and IX, in the cartilage matrix. Type IV collagen was also detected in focal areas and revealed vascular invasion of the tumor. On Day 13, osteogenesis was demonstrated by the presence of Type I collagen in the bone matrix coating the surfaces. Immunolocalization of Type III collagen on the hemopoietic elements corresponded with the bone remodeling. The sequential transitions of collagen types confirm the development of an endochondral bone tumor. These results suggest that 3/A/1D-1 teratocarcinoma cell line constitutes a valuable system for in vitro study of endochondral bone formation and cell differentiation. 相似文献
19.
Localization of the expression of types I, III, and IV collagen, TGF-beta 1 and c-fos genes in developing human calvarial bones 总被引:5,自引:0,他引:5
Total RNA extracted from developing calvarial bones of 15- to 18-week human fetuses was studied by Northern hybridization: in addition to high levels of type I collagen mRNAs, the presence of mRNAs for type III and type IV collagen, TGF-beta and c-fos was observed. In situ hybridization of sections containing calvarial bone, overlying connective tissues, and skin was employed to identify the cells containing these mRNAs. Considerable variation was observed in the distribution of pro alpha 1(I) collagen mRNA in osteoblasts: the amount of the mRNA in cells at or near the upper surface of calvarial bone was distinctly greater than that in cells at the lower surface, indicating the direction of bone growth. High levels of type I collagen mRNAs were also detected in fibroblasts of periosteum, dura mater, and skin. Type III collagen mRNA revealed a considerably different distribution: the highest levels were detected in upper dermis, lower levels were seen in fibroblasts of the periosteum and the fibrous mesenchyme between bone spiculas, and none was seen in osteoblasts. Type IV collagen mRNAs were only observed in the endothelial cells of blood capillaries. Immunohistochemical localization of type III and IV collagens agreed well with these observations. The distribution of TGF-beta mRNA resembled that of type I collagen mRNA. In addition, high levels of TGF-beta mRNA were observed in osteoclasts of the calvarial bone. These cells, responsible for bone resorption, were also found to contain high levels of c-fos mRNA. Production of TGF-beta by osteoclasts and its activation by the acidic environment could form a link between bone resorption and new matrix formation. 相似文献
20.
The distribution of type I, III and IV collagens and laminin during neural crest development was studied by immunofluorescence labelling of early avian embryos. These components, except type III collagen, were present prior to both cephalic and trunk neural crest appearance. Type I collagen was widely distributed throughout the embryo in the basement membranes of epithelia as well as in the extracellular spaces associated with mesenchymes. Type IV collagen and laminin shared a common distribution primarily in the basal surfaces of epithelia and in close association with developing nerves and muscle. In striking contrast with the other collagens and laminin, type III collagen appeared secondarily during embryogenesis in a restricted pattern in connective tissues. The distribution and fate of laminin and type I and IV collagens could be correlated spatially and temporally with morphogenetic events during neural crest development. Type IV collagen and lamin disappeared from the basal surface of the neural tube at sites where neural crest cells were emerging. During the course of neural crest cell migration, type I collagen was particularly abundant along migratory pathways whereas type IV collagen and laminin were distributed in the basal surfaces of the epithelia lining these pathways but were rarely seen in large amounts among neural crest cells. In contrast, termination of neural crest cell migration and aggregation into ganglia were correlated in many cases with the loss of type I collagen and with the appearance of type IV collagen and laminin among the neural crest population. Type III collagen was not observed associated with neural crest cells during their development. These observations suggest that laminin and both type I and IV collagens may be involved with different functional specificities during neural crest ontogeny. (i) Type I collagen associated with fibronectins is a major component of the extracellular spaces of the young embryo. Together with other components, it may contribute to the three-dimensional organization and functions of the matrix during neural crest cell migration. (ii) Type III collagen is apparently not required for tissue remodelling and cell migration during early embryogenesis. (iii) Type IV collagen and laminin are important components of the basal surface of epithelia and their distribution is consistent with tissue remodelling that occurs during neural crest cell emigration and aggregation into ganglia. 相似文献