Project description:Hypoxia inducible factor-1α (HIF-1α) is a critical transcription factor for the hypoxic response, angiogenesis, normal hematopoietic stem cell regulation, and cancer development. Importantly, HIF-1α is also a key regulator for immune cell activation. In order to determine whether HIF-1α is sufficient for developing MDS phenotypes, we generated blood specific inducible HIF-1α transgenic mice. Using Vav1-Cre/Rosa26-loxP-Stop-loxP (LSL) rtTA driver, stable HIF-1α can be induced in a doxycycline administration dependent manner. After induction, HIF-1α-induced mice developed thrombocytopenia, leukocytopenia, macrocytic anemia, and multi-lineage dysplasia. We also found activation of both innate and adaptive immunity in HIF-1α- induced mice compared to those from control mice. Taken together, these data suggest that HIF-1α is sufficient to trigger a variety of key MDS features

Project description:To investigate the detailed molecular mechanisms for the regulatory role of HIF-1α in colon, microarray gene expression analysis was performed on colon RNA isolated from 6- to 8-week-old Hif-1α+/+, Hif-1αLSL/LSL mice. Background & Aims: The progression and growth of solid tumors leads to a state where tumors outgrow their capacity for efficient oxygenation and nutrient uptake and an increase in tumor hypoxia. Tumor hypoxic response is mediated by hypoxia-inducible factor (HIF)-1a and HIF-2a. These transcription factors regulate a battery of genes that are critical for tumor oxygenation, tumor metabolism, and cell proliferation and survival. Therefore, inhibitors of HIF have been sought for as anti-neoplastic agents in several different kinds of cancers. Interestingly, in ischemic and inflammatory diseases of the intestine, activation of HIF-1a is beneficial, and can reduce intestinal inflammation. The efficacy of pharmacological agents that chronically activate HIF-1a are decreased due to the tumorigenic potential of HIF. However, recent advance in understanding HIF signaling have identified mechanisms, which could allow for isoform specific activators. Activation of HIF-2a increases colon carcinogenesis and progression in mouse models. However, the role of chronic HIF-1a activation is unclear in the progression in colon cancer. The present data demonstrates that activation of HIF-1a in epithelial cells does not increase colon carcinogens or progression in two mouse models of colon cancer, and provides the proof of principle that HIF-1a activation maybe safe as therapies for inflammatory bowel disease. Global gene expression profiling in colon RNAs isolated from 6- to 8-week-old Hif-1α+/+ (n=5, Shah 019) and Hif-1αLSL/LSL (n=5, Shah 020).

Project description:Gene Expression profiles of colon from Hif-1α+/+, Hif-1αLSL/LSL

Project description:The rise of antibiotic-resistant strains of Salmonella has demand the development of alternative therapeutic strategies. Recent studies have shown that targeting host factors may provide an alternative approach for the treatment of intracellular pathogens. Host-directed therapy (HDT) modulates host cellular factors that are essential to support the replication of the intracellular pathogens. In the current study, we identified Gefitinib as a potential host directed therapeutic drug against Salmonella. Further, using the proteome analysis of Salmonella-infected macrophages, we identified EGFR, a host factor, promoting intracellular survival of Salmonella via mTOR-HIF-1α axis. Blocking of EGFR, mTOR or HIF-1α inhibits the intracellular survival of Salmonella within the macrophages and in mice. Global proteo-metabolomics profiling indicated the upregulation of host factors predominantly associated with ATP turn over, glycolysis, urea cycle, which ultimately promote the activation of EGFR-HIF1α signalling upon infection. Importantly, inhibition of EGFR and HIF1α restored both proteomics and metabolomics changes caused by Salmonella infection. Taken together, this study identifies Gefitinib as a host directed drug that holds potential translational values against Salmonella infection and might be useful for the treatment of other intracellular infections.

Project description:RanBP2 type and C3HC4 type zinc finger containing protein 1 (RBCK1,) is a 58 kDa protein containing N-terminal ubiquitin like (UBL) domain, npl4 type zinc finger (NZF) domain and catalytic carbon terminal RBR domain. It is known that it has abnormal expression in tumors, making it a valuable diagnostic marker and drug target. A large number of studies have confirmed that in ER positive breast cancer, about 25%-40% of the tumor showed a visible hypoxia area. Under hypoxia, tumor cells can activate HIF1 pathway and widely activate the expression of downstream genes. Hypoxia inducible factor HIF-1 is composed of HIF-1α and HIF-1β Two subunits, The protein level of HIF-1α is precisely regulated by oxygen concentration. Here, we report RBCK1, a RING family ubiquitin ligase that regulates HIF1α, promoting ER positive breast cancer growth and inhibiting apoptosis. Deletion of RBCK1 inhibits ER positive breast cancer growth and promotes cell death. RNA sequencing analysis showed that in ER positive breast cancer, RBCK1 may be an important modifier of HIF1α signal pathway. Further experiments showed that RBCK1 and HIF1α Interacts and inhibits HIF1α polyubiquitination to inhibit HIF1α degradation in ER positive breast cancer cells. These finding reveals a novel direct HIF1α regulator and a potential therapeutic target for ER positive breast cancer.

Project description:We herein found the strong expression of hypoxia-inducible factor-1α (HIF-1α) in tuberculosis granulomas and more rapid death of HIF-1α-conditional knockout mice than wild-type mice after M. tuberculosis infection. These results prompted us to investigate the role of HIF-1α in host defenses against infection. Bone-marrow derived macrophages from Wild-type (WT) mice and HIF-1α-conditional knockout (HIF-1 CKO) mice were infected with M tuberculosis H37Rv (multiplicity of infection = 0.5) for 12 h, and extracellular bacilli were removed from the macrophage culture medium. Cells were cultured for 4 days in the presence of 500 U/ml IFN-γ. In microarray analysis using Gene Chip Mouse Gene 1.0 ST Array, the expression of 757 and 1190 genes was ≥1.3-fold stronger and ≥0.77-fold weaker, respectively, in HIF-1 CKO than in WT.

Project description:While hypoxic signaling has been shown to play a role in many cellular processes, its role in metabolism linked extracellular matrix (ECM) organization and downstream processes of cell fate after musculoskeletal injury remains to be determined. Heterotopic ossification (HO) is a debilitating condition where abnormal bone formation occurs within extra-skeletal tissues. Hypoxia and hypoxia-inducible factor 1α (HIF-1α) activation have been shown to promote HO. However, the underlying molecular mechanisms by which the HIF-1α pathway in mesenchymal progenitor cells (MPCs) contributes to pathologic bone formation remain to be elucidated. Here we used a proven mouse injury-induced HO model to investigate the role of HIF-1α on aberrant cell fate. Using single-cell RNA-sequencing (scRNA-Seq), we found that collagen ECM organization is the most highly up-regulated biological process in MPCs. Zeugopod mesenchymal cell-specific deletion of Hif1α (Hoxa11-CreERT2; Hif1afl/fl) significantly mitigated HO in vivo. ScRNA-Seq analysis of these Hoxa11-CreERT2; Hif1afl/fl mice identified the PLOD2/LOX pathway for collagen cross-linking as downstream of the HIF-1α regulation of HO. Importantly, our scRNA-seq data and mechanistic studies further uncovered that glucose metabolism in MPCs is most highly impacted by HIF-1α deletion.

Project description:Transcriptional profiling of Rat liver submitted to high fat diets made with either crude (HFC) or refined salmon oil (HFR). Keywords: transcriptomic analysis Two groups of rats were submitted to high fat diet containing either crude salmon oil (HFC) or refined salmon oil (HFR). After 28 days, livers were retrieved and RNA extracted. A pool of RNA from HFR group was used as the reference group. Each HFC was compared to reference group (pool of HFR). Five biological replicates were processed.

Project description:LncRNA Hypoxia-inducible factor 1α-antisense 1 (HIF1α-AS1) is located on the antisense strand of the important Hypoxia-inducible factor 1α (HIF1α) gene, but being transcribed in antisense direction along the HIF1α promoter. Here we used the 3’end biotinylated HIF1a-AS1 RNA and a control RNA for RNA Pulldown and searched for interacting proteins in nuclear extracts of human umbilical vein endothelial cells (HUVEC).

Project description:Purpose: determine RNA expression differences in an unbiased fashion between UPS tumors derived from LSL-KrasG12D;Trp53-/- (KP) mice, and UPS tumors derived from LSL-KrasG12D;Trp53-/-;Epas1-/- (KPH2) mice. Epas1 encodes HIF-2alpha protein.