The cell proliferation-associated nuclear antigen recognized by the Ki-67 monoclonal antibody was detected immunohistochemically in cells from skeletal tissues of humans, sheep and rabbits. In each ...case the distribution of Ki-67-positive cells was identical and consistent with the known distribution of dividing cells in growing long bones. The antigen recognized by Ki-67 is detectable only after fixation in cold acetone. In the 5-day-old rabbit, labelling with tritiated thymidine ( 3HTdR) in vivo, followed subsequently by a combination of Ki-67 immunohistochemistry and autoradiography for 3HTdR, demonstrated that, in addition to the expression of Ki-67 by the majority of 3HTdR labelled cells, other cells associated with proliferating populations also expressed the Ki-67 antigen. This suggests that the Ki-67 antibody identifies cycling cells in the skeleton in S-phase, as well as in other phases of the cell cycle. In Ki-67 reactive species, this method is a potentially useful tool for the study of cell proliferation in skeletal tissues in vivo and in vitro, having the advantage of not requiring prior labelling with DNA precursors.
Type X collagen, a homotrimer of alpha 1 (X) polypeptide chains, is specifically expressed by hypertrophic chondrocytes in regions of cartilage undergoing endochondral ossification. We have ...previously characterized a genomic clone containing the major part of the mouse type X collagen gene (col10a1) and assigned the locus for col10a1 to mouse chromosome 10 (Apte et al., Eur. J. Biochem. 224: 217-224, 1992). In this paper, through additional characterization of cDNA and genomic clones, we describe the complete organization of the col10a1 gene. The col10a1 gene is 7.2 kb in size and, as in the chick, col10a1 gene transcripts are generated from only three exons. Exon 1 encodes only the 5' untranslated (5' UT) region of the mRNA and is separated from exon 2 by an intron 562 bp in length. Exon 2 (169 bp) encodes 15 bp of 5' UT message, the translation start plus 17-amino acid residues of the putative signal peptide, and 33 1/3 codons of the putative N-terminal non-collagenous (NC2) domain of type X collagen. Exon 3 is 2854 bp in size and encodes 4 2/3 codons of the NC2 domain, the entire collagenous domain of 463 residues (COL), the entire C-terminal non-collagenous (NC1) domain (161 amino acid residues) and the entire 965 bp 3' untranslated (3' UT) sequence of the mRNA. Two TATA boxes are present in tandem in the col10a1 promotor. Both TATA boxes are active in transcription, generating two populations of transcripts with different 5'-termini; the longer transcript is of low abundance and is detectable only by PCR in newborn mice. The col10a1 promotor contains a CCAAT box as well as other consensus sequence elements required for binding of potential transcription factors. Characterization of the col10a1 gene provides data essential for studies of the regulation of type X collagen expression during mammalian endochondral bone growth and development. Knowledge of the complete structure of the mouse type X collagen gene will also be useful for the investigation of type X collagen gene abnormalities in murine chondrodysplasias and for the generation of transgenic mice.
Abstract Objective Pancreatic ductal adenocarcinoma (PDAC) is characterized by desmoplasia due to increased deposition of extracellular matrix (ECM) proteins. This work investigates the efficacy of ...targeted ECO/miR-200c nanoparticles (ELNP) on ECM remodeling in PDAC and tumor proliferation with MR molecular imaging (MRMI) with MT218 in immunocompetent mouse models. Methods The miR-200c mediated regulation of EMT markers was measured in PDAC cells in vitro . Wild-type mice bearing mutated KRAS-driven KPC subcutaneous or orthotopic tumors were dosed weekly with RGD-ELNP/miR-200c at 1 mg-RNA/kg for a total of 4 doses. We utilized MT218-MRMI to non-invasively monitor the alteration of tumor ECM EDN-FN levels by miR-200c and tumor response to the treatment. The changes were also validated by posthumous histopathology. Results Transfection of PDAC cells with ELNP/miR-200c downregulated the expression of FN1 and EDB-FN and some mesenchymal markers, inhibiting 3D spheroid formation and migration of KPC PDAC cells. RGD-ELNP/miR-200c treatment resulted in significant signal reduction in the MT218 enhanced MRMI images of both subcutaneous and orthotopic KPC tumors compared to those prior to treatment and treated with a non-specific control. MT218-MRMI results were suggestive of EDB-FN downregulation in tumors, which was later confirmed by immunohistochemistry. Tumor growth in subcutaneous tumors was significantly attenuated with RGD-ELNP/miR-200c and was an observed trend in orthotopic tumors. Substantial necrosis and remodeling were observed in both models treated with RGD-ELNP/miR-200c based on H&E staining. Conclusion These results demonstrate the feasibility of RGD-ELNP/miR-200c in modulating PDAC ECM and restraining tumor growth and the utility of MT218-MRMI for non-invasively monitoring miR-200c efficacy.
We have cloned a novel member of the matrix metalloproteinase (MMP) family of proteins from a human liver cDNA library. The isolated cDNA contains an open reading frame coding for a polypeptide of ...508 amino acids, which has been tentatively called MMP-19. This protein exhibits the domain structure characteristic of previously described MMPs, including a signal sequence, a prodomain with the cysteine residue essential for maintaining the latency of these enzymes, an activation locus with the zinc-binding site, and a COOH-terminal fragment with sequence similarity to hemopexin. However, it lacks a series of structural features distinctive of the diverse MMP subclasses, including the Asp, Tyr, and Gly residues located close to the zinc-binding site in collagenases, the fibronectin-like domain of gelatinases, the transmembrane domain of membrane-type (MT) MMPs, and the furin-activation sequence common to stromelysin-3 and MT-MMPs. In addition, the 9-residue insertion rich in hydrophobic amino acids present at the hinge region in stromelysins is replaced in MMP-19 by a longer insertion very rich in acidic residues. On the basis of these structural characteristics, we propose that MMP-19 does not belong to any of the previously defined MMP-subclasses and may represent the first member of a new MMP subfamily. Chromosomal location of the MMP-19 gene revealed that it maps to chromosome 12q14, which is also a unique location for any MMPs mapped to date. The cDNA encoding a full-length MMP-19 was expressed in Escherichia coli, and after purification and refolding, the recombinant protein was able to degrade synthetic substrates for MMPs. MMP-19 proteolytic activity was abolished by TIMP-2 and EDTA, thus providing additional evidence that the isolated cDNA codes for an authentic MMP. Northern blot analysis of polyadenylated RNAs isolated from a variety of human tissues revealed that MMP-19 is mainly expressed in placenta, lung, pancreas, ovary, spleen, and intestine, suggesting that it may play a specialized role in these tissues.
With consensus primers based upon the nucleotide sequence of the chicken α1(X) collagen gene, we have used PCR with human genomic DNA as template to isolate a 289 bp fragment coding for part of the ...carboxyl non-triple helical domain of the human α1(X) gene. We have demonstrated the presence of the sequence of the PCR clone within the human genome by partial sequence analysis of a 1 kb
HindIII genomic DNA fragment that hybridized with the PCR clone. Furthermore, using the PCR clone as a probe for in situ hybridization of human metaphase chromosome spreads, and for Southern analysis of a panel of human—hamster somatic cell hybrid DNAs, we have assigned he locus for the α1(X) gene to the q-21–q22 region of human chromosome 6.