| 1. |
- Adam, M., et al.
(author)
-
Hydroxysteroid (17 beta) dehydrogenase 13 deficiency triggers hepatic steatosis and inflammation in mice
- 2018
-
In: Faseb Journal. - 0892-6638. ; 32:6, s. 3434-3447
-
Journal article (peer-reviewed)abstract
- Hydroxysteroid (17(3) dehydrogenases (HSD17Bs) form an enzyme family characterized by their ability to catalyze reactions in steroid and lipid metabolism. In the present study, we characterized the phenotype of HSD17B13-knockout (HSD17B13KO) mice deficient in Hsd1 7b13. In these studies, hepatic steatosis was detected in HSD17B13KO male mice, indicated by histologic analysis and by the increased triglyceride concentration in the liver, whereas reproductive performance and serum steroid concentrations were normal in HSD17B13KO mice. In line with these changes, the expression of key proteins in fatty acid synthesis, such as FAS, acetyl-CoA carboxylase 1, and SCD1, was increased in the HSD17B13KO liver. Furthermore, the knockout liver showed an increase in 2 acylcamitines, suggesting impaired mitochondrial beta-oxidation in the presence of unaltered malonyl CoA and AMPK expression. The glucose tolerance did not differ between wild-type and HSD17B13KO mice in the presence of lower levels of glucose 6-phosphatase in HSD17B13KO liver compared with wild-type liver. Furthermore, microgranulomas and increased portal inflammation together with up-regulation of immune response genes were observed in HSD17B13KO mice. Our data indicate that disruption of Hsdl7b13 impairs hepatic-lipid metabolism in mice, resulting in liver steatosis and inflammation, but the enzyme does not play a major role in the regulation of reproductive functions.
|
|
| 2. |
- Addinsall, Alex B., et al.
(author)
-
Ruxolitinib Prevents Ventilator Induced Diaphragm Dysfunction
- 2022
-
In: The FASEB Journal. - : John Wiley & Sons. - 0892-6638 .- 1530-6860. ; 36:S1
-
Journal article (peer-reviewed)abstract
- Mechanical ventilation (MV), however brief results in the loss of diaphragm muscle mass and strength, termed ventilator induced diaphragm dysfunction (VIDD). VIDD increases dependence, complicates and prolongs weaning and significantly increases discharge mortality rate and health care costs worldwide. The Janus kinase (JAK)/Signal Transducer and Activator of Transcription (STAT) pathway was recently identified as an important signalling pathway implicated in VIDD, upregulated in the diaphragm following MV and limb muslces during critical care. Regulation of STAT3 is imperritve to skeletal muscle mass and function, as STAT3 is required in proper muscle growth and regeneration, while chronic activation of STAT3 is implicated in muscle dysfunction. As JAK/STAT pathway inhibition can restrict the development of chronic muscle wasting conditons, this study aimed to explore the therapeutic potential of Ruxolitinib, an approved JAK1/2 inhibitor for myelofibrosis, for treatment of CIM. We hypothesised Ruxolitinib would reduce loss of muscle mass and function associated with VIDD. Here, rats were subjected to five days controlled MV (CMV) with and without daily Ruxolitinib gavage. Five-days CMV significantly reduced diaphragm muscle size and impaired specific force, which was associated with 2-fold upregulation of P-STAT3, disrupted mitochondrial structure and respiratory function. Expression of the motor protein myosin was not affected, however CMV may alter myosin function through deamidation post translational modification. Ruxolitinib increases five-day survival rate, restored P-STAT3 expression and preserved diaphragm muscle size and specific force. These functional improvements were associated with improved mitochondrial structure, augmented mitochondrial respiratory function and reversal or augmentation of myosin deamidations. These results provide evidence of the preclinical potential of repurposing Ruxolitinib for the treatment of VIDD.
|
|
| 3. |
- Aguado, T, et al.
(author)
-
The endocannabinoid system drives neural progenitor proliferation
- 2005
-
In: FASEB Journal. - : Wiley. - 1530-6860 .- 0892-6638. ; 19:9, s. 1704-1704
-
Journal article (peer-reviewed)abstract
- The discovery of multipotent neural progenitor (NP) cells has provided strong support for the existence of neurogenesis in the adult brain. However, the signals controlling NP proliferation remain elusive. Endocannabinoids, the endogenous counterparts of marijuana-derived cannabinoids, act as neuromodulators via presynaptic CB1 receptors and also control neural cell death and survival. Here we show that progenitor cells express a functional endocannabinoid system that actively regulates cell proliferation both in vitro and in vivo. Specifically, NPs produce endocannabinoids and express the CB1 receptor and the endocannabinoid-inactivating enzyme fatty acid amide hydrolase ( FAAH). CB1 receptor activation promotes cell proliferation and neurosphere generation, an action that is abrogated in CB1-deficient NPs. Accordingly, proliferation of hippocampal NPs is increased in FAAH-deficient mice. Our results demonstrate that endocannabinoids constitute a new group of signaling cues that regulate NP proliferation and thus open novel therapeutic avenues for manipulation of NP cell fate in the adult brain.
|
|
| 4. |
|
|
| 5. |
|
|
| 6. |
|
|
| 7. |
|
|
| 8. |
|
|
| 9. |
- Alkhori, Liza, et al.
(author)
-
The corepressor Atrophin specifies odorant receptor expression in Drosophila
- 2014
-
In: The FASEB Journal. - : Federation of American Societies for Experimental Biology. - 0892-6638 .- 1530-6860. ; 28:3, s. 1355-1364
-
Journal article (peer-reviewed)abstract
- In both insects and vertebrates, each olfactory sensory neuron (OSN) expresses one odorant receptor (OR) from a large genomic repertoire. How a receptor is specified is a tantalizing question addressing fundamental aspects of cell differentiation. Here, we demonstrate that the corepressor Atrophin (Atro) segregates OR gene expression between OSN classes in Drosophila. We show that the knockdown of Atro result in either loss or gain of a broad set of ORs. Each OR phenotypic group correlated with one of two opposing Notch fates, Notch responding, Nba (N(on)), and nonresponding, Nab (N(off)) OSNs. Our data show that Atro segregates ORs expressed in the Nba OSN classes and helps establish the Nab fate during OSN development. Consistent with a role in recruiting histone deacetylates, immunohistochemistry revealed that Atro regulates global histone 3 acetylation (H3ac) in OSNs and requires Hdac3 to segregate OR gene expression. We further found that Nba OSN classes exhibit variable but higher H3ac levels than the Nab OSNs. Together, these data suggest that Atro determines the level of H3ac, which ensures correct OR gene expression within the Nba OSNs. We propose a mechanism by which a single corepressor can specify a large number of neuron classes.-Alkhori, L., Öst, A., Alenius, M. The corepressor Atrophin specifies odorant receptor expression in Drosophila.
|
|
| 10. |
- Almuzzaini, Bader, et al.
(author)
-
In beta-actin knockouts, epigenetic reprogramming and rDNA transcription inactivation lead to growth and proliferation defects
- 2016
-
In: The FASEB Journal. - 0892-6638 .- 1530-6860. ; 30:8, s. 2860-2873
-
Journal article (peer-reviewed)abstract
- Actin and nuclear myosin 1 (NM1) are regulators of transcription and chromatin organization. Using a genome-wide approach, we report here that beta-actin binds intergenic and genic regions across the mammalian genome, associated with both protein-coding and rRNA genes. Within the rDNA, the distribution of beta-actin correlated with NM1 and the other subunits of the B-WICH complex, WSTF and SNF2h. In beta-actin(-/-) mouse embryonic fibroblasts (MEFs), we found that rRNA synthesis levels decreased concomitantly with drops in RNA polymerase I (Pol I) and NM1 occupancies across the rRNA gene. Reintroduction of wild-type beta-actin, in contrast to mutated forms with polymerization defects, efficiently rescued rRNA synthesis underscoring the direct role for a polymerization-competent form of beta-actin in Pol I transcription. The rRNA synthesis defects in the beta-actin(-/-) MEFs are a consequence of epigenetic reprogramming with up-regulation of the repressive mark H3K4me1 (mono-methylation of lys4 on histone H3) and enhanced chromatin compaction at promoter-proximal enhancer (T0 sequence), which disturb binding of the transcription factor TTF1. We propose a novel genome-wide mechanism where the polymerase-associated beta-actin synergizes with NM1 to coordinate permissive chromatin with Pol I transcription, cell growth, and proliferation.
|
|
