Angiogenesis and vascular remodeling are essential for the establishment of vascular networks during organogenesis. Here we show that the Hippo signaling pathway effectors YAP and TAZ are required, in a gene dosage-dependent manner, for the proliferation and migration of vascular endothelial cells (ECs) during retinal angiogenesis. Intriguingly, nuclear translocation of YAP and TAZ induced by Lats1/2-deletion blocked endothelial migration and phenocopied Yap/Taz-deficient mutants. Furthermore, overexpression of a cytoplasmic form of YAP (YAPS127D) partially rescued the migration defects caused by loss of YAP and TAZ function. Finally, we found that cytoplasmic YAP positively regulated the activity of the small GTPase CDC42, deletion of which caused severe defects in endothelial migration. These findings uncover a previously unrecognized role of cytoplasmic YAP/TAZ in promoting cell migration by activating CDC42 and provide insight into how Hippo signaling in ECs regulates angiogenesis.A ngiogenesis is a process of growth and remodeling in vascular networks that is essential for normal development. In adulthood, angiogenesis is activated as a reparative process, for example, during wound healing (1, 2). Aberrantly regulated angiogenesis can also be a component of disease (3) and can play a key role in tumor growth and metastasis (4), inflammatory diseases (5), diabetic retinopathy, and retinopathy of prematurity (6).Retinal angiogenesis in mice begins at postnatal day 0 (P0). The retinal vasculature initiates its expansion from the optic nerve head and migrates outwards along a preexisting network of astrocytes (7,8). This results in the formation of the superficial vascular plexus within the retinal ganglion cell layer during the first 8 d (9, 10). Endothelial cells (ECs) then migrate along nerve fibers to establish deep and intermediate vascular layers (9,11). Cell proliferation and migration are essential for angiogenesis and these cell responses are regulated by many different signaling pathways, including the VEGF, Notch, Wnt, FGF, BMP, and integrin signaling responses (9, 12-16). VEGFA and CDC42 are known to regulate extension of the angiogenic front and filopodia formation in angiogenic tip cells (2,17,18).The Hippo signaling pathway is an evolutionarily conserved, pivotal regulator of cell proliferation and organogenesis. YAP and TAZ are key components of the Hippo signaling pathway and function as transcription cofactors that regulate downstream gene expression via association with DNA binding proteins such as 20). Loss of Hippo signaling can drive the expression of genes that regulate cell proliferation and survival (diap1, bantam, cyclin E, and E2F1), the Hippo pathway (Kibra, Crb, and Fj), and cell-cell interaction (E-Cadherin, Serrate, Wingless, and Vein) (20). The activity of YAP and TAZ is regulated by the LATS1 and LATS2 kinases. These kinases phosphorylate YAP and TAZ, thus preventing their nuclear translocation and regulating transcriptional activity. Although the function of YAP and TAZ in the ...
We present a Prototheca wickerhamii wound infection case that failed treatment with ketoconazole but was cured with amphotericin-B plus tetracycline. The patient was immunocompetent but had had local steroid injections. We reviewed another 159 cases from the literature. Prototheca has infected many areas of the human body, but most often skin, olecranon bursa, or wounds. Prior treatment with steroids and immune deficiencies are contributing factors. Itraconazole and fluconazole are reasonable initial treatments for patients with mild infections. For serious infections, or for infections that have failed azole treatment, amphotericin-B is the treatment of choice.
In 2014, ISHAM formed a new working group: "Medical Phycology: Protothecosis and Chlorellosis." The purpose of this working group is to help facilitate collaboration and communication among people interested in the pathogenic algae, to share ideas and work together. Here we present reports on recent work we have done in five areas. 1. The history of medical phycology as a branch of science. 2. Aspects of the genetics of Prototheca. 3. Aspects of the proteins of Prototheca. 4. Human infections caused by Prototheca. 5. Dairy cow mastitis caused by Prototheca.
BAU, NA, SR and UT performed experimental analysis. MB designed and built the required lighting systems. MD and ZK provided essential tools. M-TN, SV, GN, YO, EB, SR, RSH, PMI and RNVG designed experiments and provided coordinating leadership within the collaborative group. M-TN, SV, GN EB, PMI, RNVG and RAL wrote the paper. RAL designed experimental analysis and provided overall project leadership.
Highlights d Adipocytes express encephalopsin (OPN3), a 480 nm bluelight-sensitive opsin d Mice lacking OPN3 or blue light have diminished thermogenesis during cold exposure d Loss of OPN3 reduces oxygen consumption and energy expenditure d White adipocyte OPN3 promotes lipolysis during cold exposure
Cryptotanshinone (CPT), a natural compound isolated from the plant Salvia miltiorrhiza Bunge, is a potential anticancer agent. However, the underlying mechanism is not well understood. Here, we show that CPT induced caspase-independent cell death in human tumor cells (Rh30, DU145, and MCF-7). Besides downregulating antiapoptotic protein expression of survivin and Mcl-1, CPT increased phosphorylation of p38 mitogen-activated protein kinase (MAPK) and c-jun N-terminal kinase (JNK), and inhibited phosphorylation of extracellular signal–regulated kinases 1/2 (Erk1/2). Inhibition of p38 with SB202190 or JNK with SP600125 attenuated CPT-induced cell death. Similarly, silencing p38 or c-Jun also in part prevented CPT-induced cell death. In contrast, expression of constitutively active mitogen-activated protein kinase kinase 1 (MKK1) conferred resistance to CPT inhibition of Erk1/2 phosphorylation and induction of cell death. Furthermore, we found that all of these were attributed to CPT induction of reactive oxygen species (ROS). This is evidenced by the findings that CPT induced ROS in a concentration- and time-dependent manner; CPT induction of ROS was inhibited by N-acetyl-l-cysteine (NAC), a ROS scavenger; and NAC attenuated CPT activation of p38/JNK, inhibition of Erk1/2, and induction of cell death. The results suggested that CPT induction of ROS activates p38/JNK and inhibits Erk1/2, leading to caspase-independent cell death in tumor cells.
Curcumin can induce p53-independent apoptosis. However, the underlying mechanism remains to be defined. Here, we show that curcumin-induced apoptosis in a panel of tumor cells with mutant p53. Curcumin rapidly induced activation of the mitogen-activated protein kinases (MAPKs) including extracellular signal-regulated kinase 1/2 (Erk1/2) and c-Jun N-terminal kinase (JNK). Inhibition of JNK (with SP600125) or Erk1/2 (with U0126) partially prevented curcumin-induced cell death in the cells. Similarly, expression of dominant negative c-Jun or downregulation of Erk1/2 in part attenuated curcumin-induced cell death. It appears that curcumin-induced activation of MAPKs and apoptosis was due to induction of reactive oxygen species (ROS), as pretreatment with N-acetyl-L-cysteine, a ROS scavenger, blocked these events. Furthermore, we found that curcumin-induced activation of MAPK pathways was related to inhibition of the serine/threonine protein phosphatases 2A (PP2A) and 5 (PP5). Overexpression of PP2A or PP5 partially prevented curcumin-induced activation of JNK and Erk1/2 phosphorylation as well as cell death. The results suggest that curcumin induction of ROS activates MAPKs, at least partially by inhibiting PP2A and PP5, thereby leading to p53-independent apoptosis in tumor cells.
Mammalian target of rapamycin (mTOR) controls lymphangiogenesis. However, the underlying mechanism is not clear. Here we show that rapamycin suppressed insulin-like growth factor 1 (IGF-1)- or fetal bovine serum (FBS)-stimulated lymphatic endothelial cell (LEC) tube formation, an in vitro model of lymphangiogenesis. Expression of a rapamycin-resistant and kinase-active mTOR (S2035T, mTOR-T), but not a rapamycin-resistant and kinase-dead mTOR (S2035T/D2357E, mTOR-TE), conferred resistance to rapamycin inhibition of LEC tube formation, suggesting that rapamycin inhibition of LEC tube formation is mTOR kinase activity dependent. Also, rapamycin inhibited proliferation and motility in the LECs. Furthermore, we found that rapamycin inhibited protein expression of VEGF receptor 3 (VEGFR-3) by inhibiting protein synthesis and promoting protein degradation of VEGFR-3 in the cells. Down-regulation of VEGFR-3 mimicked the effect of rapamycin, inhibiting IGF-1- or FBS-stimulated tube formation, whereas over-expression of VEGFR-3 conferred high resistance to rapamycin inhibition of LEC tube formation. The results indicate that rapamycin inhibits LEC tube formation at least in part by downregulating VEGFR-3 protein expression.
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