Dorsoventral patterning of the C. elegans postembryonic mesoderm requires both LIN-12/Notch and TGFbeta signaling

The heparin binding molecules MK and HB-GAM are involved in the regulation of growth and differentiation of many tissues and organs. Here we analyzed the expression of MK and HB-GAM in the developing mouse incisors, which are continuously growing organs with a stem cell compartment. Overlapping but distinct expression patterns for MK and HB-GAM were observed during all stages of incisor development (initiation, morphogenesis, cytodifferentiation). Both proteins were detected in the enamel knot, a transient epithelial signaling structure that is important for tooth morphogenesis, and the cervical loop where the stem cell niche is located. The functions of MK and HB-GAM were studied in dental explants and organotypic cultures in vitro. In mesenchymal explants, MK stimulated HB-GAM expression and, vice-versa, HB-GAM upregulated MK expression, thus indicating a regulatory loop between these proteins. BMP and FGF molecules also activated expression of both cytokines in mesenchyme. The proliferative effects of MK and HB-GAM varied according to the mesenchymal or epithelial origin of the tissue. Growth, cytodifferentiation and mineralization were inhibited in incisor germs cultured in the presence of MK neutralizing antibodies. These results demonstrate that MK and HB-GAM are involved in stem cells maintenance, cytodifferentiation and mineralization processes during mouse incisor development.     

A new family of heparin-binding factors: strong conservation of midkine (MK) sequences between the human and the mouse

A retinoic acid responsive gene, MK, specifies for a heparin binding factor termed midkine (MK), which is the initial member of a new protein family involved in regulation of growth and differentiation. A cDNA clone of human MK was isolated from a fetal kidney cDNA library. Human MK mRNA was expressed in PA1 teratocarcinoma cells as well as in the kidney. Sequence analysis of the cDNA clone and of a part of the genomic clone yielded the predicted protein sequence of human MK. Human and mouse MK sequences are highly conserved: 87% of amino acids are identical and all amino acid changes are conservative except for an insertion. Comparison of MK and HB-GAM/pleiotrophin (another member of the family) from various species revealed sequences conserved in the family and those specific for each protein.     

A splicing factor, Prp8: preferential localization in the testis and ovary in adult mice

Prp8 is a splicing factor of 220 kDa originally identified in yeast and is a component of the U5 small nuclear ribonucleoprotein particle. Mouse Prp8 cDNA was cloned and shown to share 62.6 and 68.2% sequence identity with the yeast homologue at the amino acid and nucleotide level, respectively, while it differs by only 3 amino acid residues from the human homologue. During mouse embryogenesis, Prp8 is expressed intensely at day 9.5 of gestation, and its expression decreases progressively during embryogenesis. In adult mice, Prp8 is expressed strongly in the testis and moderately in the ovary. in situ hybridization analysis revealed that Prp8 is preferentially expressed in the outer cell layer in the testis, probably in the spermatogonia and primary spermatocytes, and in granulosa cells in the ovary. In Caenorhabditis elegans, microinjection of a double stranded RNA corresponding to a portion of the Prp8 sequence results in the arrest of embryogenesis at the late-gastrulation stage. These results suggest that Prp8 plays an important role in reproduction and development. Prp8 was shown to bind to midkine (MK), a heparin-binding growth factor. Since Prp8 expression partially overlaps with the sites of action of MK, it is possible that binding to Prp8 is involved in part of MK signaling.     

Midkine is involved in neutrophil infiltration into the tubulointerstitium in ischemic renal injury.

Midkine (MK) is a multifunctional heparin-binding protein and promotes migration of neutrophils, macrophages, and neurons. In the normal mouse kidney, MK is expressed in the proximal tubules. After renal ischemic reperfusion injury, its expression in proximal tubules was increased. Immediate increase of MK expression was found when renal proximal tubular epithelial cells in culture were exposed to 5 mM H(2)O(2). Histologically defined tubulointerstitial damage was less severe in MK-deficient (Mdk(-/-)) than in wild-type (Mdk(+/+)) mice at 2 and 7 days after ischemic reperfusion injury. Within 2 days after ischemic injury, inflammatory leukocytes, of which neutrophils were the major population, were recruited to the tubulointerstitium. The numbers of infiltrating neutrophils and also macrophages were lower in Mdk(-/-) than in Mdk(+/+) mice. Induction of macrophage inflammatory protein-2 and macrophage chemotactic protein-1, chemokines for neutrophils and macrophages, respectively, were also suppressed in Mdk(-/-) mice. Furthermore, renal tubular epithelial cells in culture expressed macrophage inflammatory protein-2 in response to exogenous MK administration. These results suggested that MK enhances migration of inflammatory cells upon ischemic injury of the kidney directly and also through induction of chemokines, and contributes to the augmentation of ischemic tissue damage.     

Midkine rescues Wilms' tumor cells from cisplatin-induced apoptosis: regulation of Bcl-2 expression by Midkine

Midkine (MK) is a heparin-binding growth factor involved in diverse biological phenomena, e.g. neuronal survival, carcinogenesis, and tissue repair. MK expression is detected mainly in the kidney in adult mice. In this study, we show that, at a dose that can induce recoverable renal damage and induce apoptosis, cisplatin (CDDP) transiently suppressed MK expression in mouse kidney. In vitro, CDDP suppressed MK expression and induced apoptosis in cultured G401 cells, a Wilms' tumor cell line. Exogenous MK protein partially rescued G401 cells from CDDP-induced apoptosis. MK enhanced the expression of Bcl-2, but not that of Bcl-x(L), in G401 cells in a dose-dependent manner, and it prevented the Bcl-2 reduction due to CDDP. Moreover, Bcl-2 expression in mouse kidney was also transiently suppressed by CDDP treatment, the expression profile being similar to that of MK. These results imply that MK exerts cytoprotective activity toward a damaging insult, presumably at least in part through enhancement of the expression of Bcl-2.     

Similarity of the genomic structure between the two members in a new family of heparin-binding factors.

By differential hybridization of cDNA libraries from Fv-1 restrictive and non-restrictive somatic mutant mouse cells, we isolated a cDNA clone specifically present in the Fv-1 restrictive cells. Its sequence was found identical to that of heparin-binding growth-associated molecule or pleiotrophin (HB-GAM/PTN). We report here its genomic organization which has not been yet reported. Although the exon organization was similar to that of midkine, another member of the same family of heparin-binding factors, the sizes of introns were much larger and occupied more than a three-fold larger chromosomal region than midkine. As its introduction into Fv-1 non-restrictive cells failed to confer the Fv-1 restrictive character, HB-GAM/PTN is probably unrelated to Fv-1 restriction.     

Osteoblast Recruitment and Bone Formation Enhanced by Cell Matrix–associated Heparin-binding Growth-associated Molecule (HB-GAM)

Bone has an enormous capacity for growth, regeneration, and remodeling. This capacity is largely due to induction of osteoblasts that are recruited to the site of bone formation. The recruitment of osteoblasts has not been fully elucidated, though the immediate environment of the cells is likely to play a role via cell– matrix interactions. We show here that heparin-binding growth-associated molecule (HB-GAM), an extracellular matrix–associated protein that enhances migratory responses in neurons, is prominently expressed in the cell matrices that act as target substrates for bone formation. Intriguingly, N-syndecan, which acts as a receptor for HB-GAM, is expressed by osteoblasts/osteoblast precursors, whose ultrastructural phenotypes suggest active cell motility. The hypothesis that HB-GAM/N-syndecan interaction mediates osteoblast recruitment, as inferred from developmental studies, was tested using osteoblast-type cells that express N-syndecan abundantly. These cells migrate rapidly to HB-GAM in a haptotactic transfilter assay and in a migration assay where HB-GAM patterns were created on culture wells. The mechanism of migration is similar to that previously described for the HB-GAM–induced migratory response of neurons. Our hypothesis that HB-GAM/N-syndecan interaction participates in regulation of osteoblast recruitment was tested using two different in vivo models: an adjuvant-induced arthritic model and a transgenic model. In the adjuvant-induced injury model, the expression of HB-GAM and of N-syndecan is strongly upregulated in the periosteum accompanying the regenerative response of bone. In the transgenic model, the HB-GAM expression is maintained in mesenchymal tissues with the highest expression in the periosteum. The HB-GAM transgenic mice develop a phenotype characterized by an increased bone thickness. HB-GAM may thus play an important role in bone formation, probably by mediating recruitment and attachment of osteoblasts/osteoblast precursors to the appropriate substrates for deposition of new bone.     

Action of the phenothiazine derivative methophenazine on prenatal development in rats.

Single doses of 100-400 mg/kg or multiple doses of 10 or 50 mg/kg of the phenothiazine derivative methophenzaine were given per osto Wistar rats at various times on the 7th-14th days fo gestation and the fetuses examined near term. Results indicated that methophenazine was mainly embryolethal when administered on the 8th-11th days, and was teratogenic at later times, producing types of malformations that depended on the day of treatment, the most susceptible period being the 13th and 14th days of gestation. Teratogenicity occurred only when the dosages were highly toxic to the pregnant rats. Ribovlavin given ip on the 14th day significantly reduced the embryolethal but not the teratogenic action of methophenazine.     

Effects of Different Conditions of Retinoic Acid Treatment on Expression of MK Gene,which is Transiently Activated during Differentiation of Embryonal Carcinoma Cells1

MK gene was intensely expressed, when aggregates of HM-1 embryonal carcinoma (EC) cells were treated with retinoic acid for 2 days to induce the differntiation to nerve cells, myoblasts and extraembryonic endoderm cells. The conditions inhibiting nerve cell diffrentiation or extraembryonic endoderm cell differentiation affected MK gene expression only slightly. The maximum level of MK RNA was detected 2 days after initiation of retionic acid treatment, when cells were morphologically indistinguishable from undifferentiated EC cells. Thus, MK gene appears to be expressed in differentiating EC cells irrespective of the direction of differentiation. The degree of MK gene expression in sparsely cultured HM-1 cells correlated with the concentration of retinoic acid, especially between 10^-8 and 10^-7 M. When retinoic acid treatment was terminated after 1 day, the amount of MK RNA started to decrease. These two results are consistent with the view that retionic acid complexed with the receptor is directly involved in expression of MK gene.     

Immunohistochemical evidence of Muc1 expression during rat embryonic development

During embryonic development, studies on mouse and human embryos have established that Muc1/MUC1 expression coincides with the onset of epithelial sheet and glandular formation. This study aimed therefore at evaluating the temporal and spatial expression of Muc1 at different stages of rat development. In this experiment, 80 animals were included: 64 rat foetuses at 13, 14, 15, 16, 17, 18, 19 and 20 days of gestation from pregnant females (WKAH/Hok), 8 embryos each stage. Standard immunohistochemistry was performed using anti-MUC1 cytoplasmic tail polyclonal antibody (CT33). The reaction was considered positive when more than 5% of the cells were stained; reaction patterns were: L = linear, membrane, C = cytoplasmic and M = mixed; nuclear staining was also recorded. Intensity was graded as negative (-), low (+), moderate (++) and strong (+++). Muc1 expression was observed with a low intensity on 13th day (13 d) in the stomach, lung and kidney; at 14 d, small intestine and pancreas were also reactive; at 16 d, liver and esophagus and at 18 d, trachea and salivary glands. During the development, intensity increased while the pattern of expression changed: at the first days of gestation, it was predominantly linear and apical while during further development an increase in cytoplasmic expression was observed. Trachea, stomach, kidney and lung epithelia were the more reactive tissues. In specimens belonging to neonates and adults, all tissues analyzed showed similar Muc1 expression. The findings of this study assess that Muc1 is highly expressed in the epithelial rat embryonic development.     

Antisense oligodeoxyribonucleotide as to the growth factor midkine suppresses neointima formation induced by balloon injury

Restenosis is the major clinical problem of angioplasty. We have previously shown that neointima formation is strikingly suppressed in midkine (MK)-deficient mice. Neointima formation is restored if MK protein is administrated to the deficient mice. MK is a heparin-binding growth factor and implicated in the migration of inflammatory cells and vascular smooth muscle cells. Consistently, the suppression of neointima formation in the deficient mice is accompanied by suppression of recruitment of inflammatory cells into the vascular wall. Here, we evaluated the potential of MK antisense oligodeoxyribonucleotide (ODN) for the prevention of restenosis. We cloned the cDNA of rabbit MK, which showed a strongly conserved sequence in mammals. The balloon injury induced MK expression, with the maximum level occurring 7-14 days after angioplasty, in the rabbit carotid artery. Two antisense ODNs suppressed the production of MK in a rabbit kidney cell line, RK13 cells, one of which was then transfected into the arterial wall by means of lipofection immediately after balloon treatment. The antisense ODN suppressed MK induction in vivo and consequently suppressed neointima formation to 60% of the control level. These results suggest that MK is a candidate molecular target for the therapy for vascular restenosis.     

Molecular cloning of the 18-kDa growth-associated protein of developing brain

An 18-kDa protein (designated herein as the heparin-binding growth-associated molecule, HB-GAM), the expression of which in rat brain correlates to the rapid postnatal developmental phase, was previously isolated and suggested to have a role in the maturation and growth of brain (Rauvala, H. (1989) EMBO J. 8, 2933-2941). A protein with a similar molecular mass, similar heparin-binding properties, and the same N-terminal sequence was more recently also isolated as a mitogen for NIH 3T3 cells (Milner, P. G., Li, Y.-T., Hoffman, R. M., Kodner, C. M., Siegel, N. R., and Deuel, T. F. (1989) Biochem. Biophys. Res. Commun. 165, 1096-1103). This study reports the cloning and sequencing of the cDNA that encodes HB-GAM. The sequence that precedes the structure of the mature molecule has the characteristics of a signal sequence found in secretory proteins. The sequence of HB-GAM is a novel structure that contains 136 amino acid residues. The sequence is very rich in cationic amino acids (24% of the residues); lysine cluster sequences are found in the N-terminal and C-terminal ends of the structure. Cysteine is also abundant in the sequence (7% of the residues). The only homologous sequence found in computer searches is the retinoic acid-induced differentiation factor. The mRNA of HB-GAM detected by the cloned cDNA shows the same kind of developmental regulation as the protein; the mRNA is strongly expressed during the early postnatal growth phase of rat brain as compared with embryonic or adult tissue.     

Secretion and biological activities of heparin-binding growth-associated molecule. Neurite outgrowth-promoting and mitogenic actions of the recombinant and tissue-derived protein.

The cDNA for the developmentally regulated, neurite outgrowth-promoting protein HB-GAM (heparin-binding growth-associated molecule) was recently cloned and shown to encode a novel lysine-rich sequence that is homologous with retinoic acid-induced sequences suggested to function in cell differentiation (Merenmies, J., and Rauvala, H. (1990) J. Biol. Chem. 265, 16721-16724). The same sequence was found for the mitogenic and neurite outgrowth-promoting protein pleiotrophin (Li, Y.-S., Milner, P. G., Chauhan, A. K., Watson, M. A., Hoffman, R. M., Kodner, C. M., Milbrandt, J., and Deuel, T. F. (1990) Science 250, 1690-1694). In this study, we have constructed a recombinant baculovirus using the cDNA that encodes the putative preprotein of HB-GAM. The putative secretion signal of HB-GAM is cleaved off in the baculovirus expression system, and the recombinant protein is rapidly secreted to the culture medium. Recombinant HB-GAM purified from the culture medium retains the biochemical characteristics and the neurite outgrowth-promoting activity found for the tissue-derived protein. Studies on the neurite outgrowth-promoting activity suggest that HB-GAM functions as an extracellular matrix-associated protein that enhances axonal growth in perinatal cerebral neurons of the rat. Since the same predicted amino acid sequence has been ascribed to a mitogenic protein, mitogenic activities of the recombinant HB-GAM and of tissue-derived HB-GAM fractions were also studied. Recombinant HB-GAM did not display any significant mitogenic activity, suggesting that tissue-derived HB-GAM preparations may contain other heparin-binding mitogenic factors. We identified in brain-derived HB-GAM fractions a 17-kDa protein (p17) that is detached from heparin by a slightly higher salt concentration as compared to HB-GAM. We suggest that p17 is structurally distinct from HB-GAM and responsible for the mitogenic actions of tissue-derived HB-GAM fractions.     

Glycosaminoglycan structures required for strong binding to midkine,a heparin-binding growth factor

Midkine (MK), a heparin-binding growth factor, binds strongly to oversulfated structures in chondroitin sulfates (CSs) and heparan sulfate. To elucidate the carbohydrate structure actually involved in the strong binding, dissected brains from 13-day mouse embryos were incubated with [14C]-glucosamine. The labeled glycosaminoglycans were fractionated by MK-agarose affinity chromatography to a weakly binding fraction, which was eluted by 0.5 M NaCl, and a strongly binding fraction, which was eluted by higher NaCl concentrations. Among the unsaturated disaccharides released from the strongly binding fraction by chondroitinase ABC, DeltaDi-diSE with 4,6-disulfated N-acetylgalactosamine accounted for 32.3%, whereas its content was lower in the weakly binding fraction. Artificial CS-E structure was formed using N-acetylgalactosamine 4-sulfate 6-O-sulfotransferase purified from squid or recombinant human enzyme. Analysis of the products and their interaction with MK revealed that E units without 3-O-sulfation of glucuronic acid are sufficient for strong binding, provided that they are present as a dense cluster. Among the sulfated disaccharides released by heparitinase digestion, the trisulfated one, DeltaDiHS-triS, was the most abundant in the strongly binding fraction and was lower in the weakly binding fraction. Together with results of previous studies, we concluded that the multivalent trisulfated heparin-like unit is another structure involved in strong binding to MK.     

Detection of antigens of endogenous viruses of the C-type during mouse development]

Embryos of the 12th-20th day of gestation, newborn and adult AKR and BALB/c mice were investigated for the presence of mouse C-type virus major structural p30 protein (gs-1) and Gross leukemia virus type-specific antigen AGLV) by means of radioimmunodiffusion with test systems. The p30 protein was distinctly determined from the 12th day of intrauterine development in both mouse lines; it persisted in the embryo tissues until birth and was detectable also in the AKR and BALB/c mouse tissues from the first days of postnatal development and during the whole life. AGLV was not revealed in BALB/c and AKR embryos and in adult BALB/c mice; however it was found in the AKR newborn mice since the 1st-2nd day after birth. Basing on these data a conclusion was drawn that p30 protein and AGLV were expressed independently according to the radioimmuno-diffusion method sensitivity.     

中期因子在相关疾病发病机制和治疗中的研究进展

中期因子(Midkine,MK),是一种分泌型肝素结合性生长因子,具有促进细胞有丝分裂、诱导细胞恶化、促进微血管生成、抑制细胞凋亡、促进炎症介质趋化、促纤溶等功能特点;经研究发现,当机体处于健康状态时中期因子除了肾脏及小肠上皮少量表达,其他部位极少表达,但机体出现疾病时,中期因子在体内的表达明显增多,如在多种恶性肿瘤、动脉粥样硬化、各类炎症、糖尿病肾病、高血压及COPD等疾病中均监测到中期因子的高表达,进一步研究发现上述疾病的发生发展与中期因子的功能特点密切相关;近年有学者利用MK在疾病发生发展中的功能特点对疾病进行治疗,特别是MK在肿瘤领域的治疗已成为研究热点,本文结合国内外的最新研究现状就MK与相关疾病的发病机制及治疗作一简要概述,并提出进一步研究的设想。