Project description:Airway epithelium is the initial point of host-pathogen interaction in Pseudomonas aeruginosa infection, an important pathogen in cystic fibrosis and nosocomial pneumonia. We used global gene expression analysis to determine airway epithelial transcriptional responses dependent on matrilysin (MMP-7) and stromelysin-2 (MMP-10), two matrix metalloproteinases induced by acute P. aeruginosa pulmonary infection. Extraction of Differential Gene Expression (EDGE) analysis of gene expression changes in P. aeruginosa infected organotypic tracheal epithelial cell cultures from wildtype, Mmp7-/-, and Mmp10-/- mice identified 2,089 matrilysin-dependent and 1,628 stromelysin-2-dependent genes that were differentially expressed. Key node network analysis showed that these MMPs controlled distinct gene expression programs involved in proliferation, cell death, immune responses, and signal transduction, among other host defense processes. Our results demonstrate discrete roles for these MMPs in regulating epithelial responses to pseudomonas infection and show that a global genomics strategy can be used to assess MMP function. Keywords: time course

Project description:Extracellular matrix (ECM) assembly/disassembly is a critical regulator for airway epithelial development and remodeling. Airway organoid is widely used in respiratory research, yet there is limited study to indicate the roles and mechanismsof ECM organization in epithelial growth and differentiation by using in vitro organoid system. Moreover, most of current Matrigel-based airway organoids are in basal-out orientation where accessing the apical surface is challenging. We present a novel human apical-out airway organoid using a biochemically defined hybrid hydrogel system. During human nasal epithelial progenitor cells (hNEPCs) differentiation, thegel gradually degraded, leading to the organoid apical surfaces facing outward. The expression and activity of ECM-degrading enzymes, matrix metalloproteinases (MMP7, MMP9, MMP10 and MMP13) increased during organoid differentiation,where inhibition of MMPs significantly suppressed the normal ciliation, resulting in increased goblet cell proportion. Moreover, a decrease of MMPs was found in goblet cell hyperplastic epithelium in inflammatory mucosa. This system reveals essential roles of epithelial-derived MMPs on epithelial cell fate determination, and provides an applicable platform enabling further study for ECM in regulating airway development in health and diseases.

Project description:Purpose: Primary cutaneous squamous cell carcinoma (SCC) can be an invasive cancer in skin and has the potential to metastasize. We aimed to define the cancer related molecular changes that distinguish non-invasive from invasive SCC. Experimental design: We used laser capture microdissection technique in combination with cDNA microarray analysis in order to determine molecular changes that associate with SCC progression. Results: We defined invasion-associated genes as those udifferentially regulated only in SCC invasive nests, but not in actinic keratosis-like dysplasia or SCC in situ regions, compared to normal epidermis. We designated these genes as “invasion signature gene set of cutaneous SCC”. Overall we found 383 up- and 354 down-regulated probe-sets that constitute the invasion signature gene set. As part of this profile, SCC invasion is associated with aberrant gene expression changes of numerous MMPs including MMP7 (FCH=5.43, FDR<0.01) and MMP13 (FCH=12.53, FDR<0.01). IL-24 is also up-regulated in the leading invasive edge of SCC (FCH=6.74, FDR<0.01). IL-24 enhanced mRNA expression of both MMP7 and MMP13 in a human SCC cell line. Laminin332, which is one of the target molecules of MMP7, had altered expression at the leading edge of SCC invasion nests at both the genomic and protein level. Conclusions: We defined the distribution of MMPs within human cutaneous SCC tissue showing distinct expression with progression from normal skin to actinic keratosis to SCC in situ to invasive carcinoma. We further suggest a potential role for IL-24 in progression to invasion via MMP7 and MMP13. Laser capture microdissection was performed on 5 cases of actinic keratosis, 5 cases of in situ SCC, and 5 cases of invasive SCC.

Project description:Several members of the matrix metalloproteinase (MMP) family control specific immune processes, such as leukocyte influx and chemokine activity. Stromelysin-2 (MMP10) is expressed in numerous tissues after injury; however, little is known of its function. Here, we report that MMP10 is expressed by macrophages in human lungs from patients with cystic fibrosis and induced in mouse macrophages in response to Pseudomonas aeruginosa infection both in vivo and in cultured bone marrow-derived macrophages (BMDM). Whereas all wildtype mice were alive at 48 h post-infection, all Mmp10–/– mice had greater weight loss and died or reached euthanasia criteria with no defect in bacterial clearance. Rather, macrophage numbers in infected Mmp10–/– lungs were about 3-4-fold greater than in wildtypes. Demonstrating that the protective effect of MMP10 was due its production by macrophages, adoptive transfer of wildtype BMDM normalized infection-induced weight loss in Mmp10–/– recipients to wildtype levels. In vivo, the expression of several M1 macrophage markers were elevated and M2 markers reduced in Mmp10–/– lungs, and we saw similar differences between M1-activated wildtype and Mmp10–/– BMDM. Global gene expression analysis revealed that infection-mediated transcriptional changes persisted in Mmp10–/– BMDM long after they downregulated in wildtype cells. These results indicate that MMP10 serves a beneficial role in response to infection by moderating the pro-inflammatory response of infiltrating macrophages.

Project description:Purpose: Primary cutaneous squamous cell carcinoma (SCC) can be an invasive cancer in skin and has the potential to metastasize. We aimed to define the cancer related molecular changes that distinguish non-invasive from invasive SCC. Experimental design: We used laser capture microdissection technique in combination with cDNA microarray analysis in order to determine molecular changes that associate with SCC progression. Results: We defined invasion-associated genes as those udifferentially regulated only in SCC invasive nests, but not in actinic keratosis-like dysplasia or SCC in situ regions, compared to normal epidermis. We designated these genes as “invasion signature gene set of cutaneous SCC”. Overall we found 383 up- and 354 down-regulated probe-sets that constitute the invasion signature gene set. As part of this profile, SCC invasion is associated with aberrant gene expression changes of numerous MMPs including MMP7 (FCH=5.43, FDR<0.01) and MMP13 (FCH=12.53, FDR<0.01). IL-24 is also up-regulated in the leading invasive edge of SCC (FCH=6.74, FDR<0.01). IL-24 enhanced mRNA expression of both MMP7 and MMP13 in a human SCC cell line. Laminin332, which is one of the target molecules of MMP7, had altered expression at the leading edge of SCC invasion nests at both the genomic and protein level. Conclusions: We defined the distribution of MMPs within human cutaneous SCC tissue showing distinct expression with progression from normal skin to actinic keratosis to SCC in situ to invasive carcinoma. We further suggest a potential role for IL-24 in progression to invasion via MMP7 and MMP13.

Project description:Human tryptophanyl-tRNA synthetase (WRS) was digested by human MMPs, and digestion mixtures were subjected to terminal amine oriented mass spectrometry of substrates (ATOMS) protocol and LC-MS/MS analysis to identify MMP cleavage sites in WRS.

Project description:Recombinant human tyrosyl-tRNA synthetase (YRS) was cleaved using recombinant MMPs. Terminal amine oriented mass spectrometry of substrates (ATOMS) was used to identify MMP generated cleavage sites from these mixtures with LC-MS/MS analysis.

Project description:Matrix metalloproteinase 7 (MMP7) is expressed at low levels in intact, normal airways by non-mucous-producing cells, including ciliated cells. In response to injury and infection, MMP7 expression is quickly and markedly upregulated and functions to regulate wound repair and various mucosal immune processes. We evaluated the global transcriptional response of airway epithelial cells from wild type and Mmp7-null mice cultured at an air-liquid interface. A common injury response was seen in both genotypes with up-regulation of genes associated with proliferation and migration. Analysis of differentially expressed genes between genotypes after injury revealed enrichment of functional categories associated with inflammation, cilia and differentiation. Because these analyses suggested MMP7 regulated ciliogenesis, we evaluated the recovery of the airway epithelium in wild type and Mmp7-null mice in vivo after naphthalene injury. These studies identified a new role for MMP7 in attenuating ciliogenesis during wound repair. A total of 16 air-liquid interface cultures of mouse airway epithelial cells were studied under four conditions: 1. Mmp7-null, no injury (n = 4); 2. Mmp7-null, scratch injury (n = 4); 3. Wildtype, no injury (n =4); 4. Wiltype, scratch injury (n = 4).

Project description:Substantial data indicate that microRNA-21 (miR-21) is significantly elevated in glioblastoma (GBM) and in many other tumors of various origins. This miRNA has been implicated in various aspects of carcinogenesis, including cellular proliferation, apoptosis and migration. We demonstrate that miR-21 regulates multiple genes associated with glioma cell apoptosis, migration, and invasiveness, including RECK and TIMP3, suppressors of malignancy and inhibitors of matrix metalloproteinases (MMPs). Specific inhibition of miR-21 with antisense olgonucleotides leads to elevated levels of RECK and TIMP3 and therefore reduces MMP activities in vitro and in a human model of glioma in nude mice. Moreover, down-regulation of miR-21 in glioma cells leads to decrease of their migratory and invasion abilities. Our data suggest that miR-21 contributes to the glioma malignancy by down-regulation of MMP inhibitors that leads to activation of MMPs thus promoting invasiveness of cancer cells. Our results also indicate that inhibition of a single oncomir like miR-21 with specific antisense molecules can provide a novel therapeutic approach for “physiological” modulation of multiple proteins whose expression is de-regulated in cancer.

Project description:Several members of the matrix metalloproteinase (MMP) family control specific immune processes, such as leukocyte influx and chemokine activity. Stromelysin-2 (MMP10) is expressed in numerous tissues after injury; however, little is known of its function. Here, we report that MMP10 is expressed by macrophages in human lungs from patients with cystic fibrosis and induced in mouse macrophages in response to Pseudomonas aeruginosa infection both in vivo and in cultured bone marrow-derived macrophages (BMDM). Whereas all wildtype mice were alive at 48 h post-infection, all Mmp10–/– mice had greater weight loss and died or reached euthanasia criteria with no defect in bacterial clearance. Rather, macrophage numbers in infected Mmp10–/– lungs were about 3-4-fold greater than in wildtypes. Demonstrating that the protective effect of MMP10 was due its production by macrophages, adoptive transfer of wildtype BMDM normalized infection-induced weight loss in Mmp10–/– recipients to wildtype levels. In vivo, the expression of several M1 macrophage markers were elevated and M2 markers reduced in Mmp10–/– lungs, and we saw similar differences between M1-activated wildtype and Mmp10–/– BMDM. Global gene expression analysis revealed that infection-mediated transcriptional changes persisted in Mmp10–/– BMDM long after they downregulated in wildtype cells. These results indicate that MMP10 serves a beneficial role in response to infection by moderating the pro-inflammatory response of infiltrating macrophages. Total RNA from bone marrow-derived macrophages from 3 WT and 3 Mmp10-/- mice for each treatment: media change only, 6h post PA infection or 24 h post PA infection. Samples were hybidized to 18 Affymetrix GeneChip Mouse Gene 2.0 ST arrays.