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  • 1.
    Bräutigam, Lars
    et al.
    Södertörns högskola, Institutionen för livsvetenskaper, Molekylärbiologi.
    Hillmer, Janine M.
    Södertörns högskola, Institutionen för livsvetenskaper, Molekylärbiologi.
    Söll, Iris
    Södertörns högskola, Institutionen för livsvetenskaper, Molekylärbiologi.
    Hauptmann, Giselbert
    Södertörns högskola, Institutionen för livsvetenskaper, Molekylärbiologi.
    Localized Expression of Urocortin Genes in the Developing Zebrafish rain2010Ingår i: Journal of Comparative Neurology, ISSN 0021-9967, E-ISSN 1096-9861, Vol. 518, nr 15, s. 2978-2995Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    The corticotropin-releasing hormone (CRH) family consists of four aralogous genes, CRH and urocortins (UCNs) 1, 2, and 3. In a previous tudy, we analyzed CRH in the teleost model organism zebrafish and its ranscript distribution in the embryonic brain. Here, we describe ull-length cDNAs encoding urotensin 1 (UTS1), the teleost UCN1 rtholog, and UCN3 of zebrafish. Major expression sites of uts1 in adult ebrafish are the caudal neurosecretory system and brain. By using T-PCR analysis, we show that uts1 mRNA is also present in ovary, aternally contributed to the embryo, and expressed throughout embryonic evelopment. Expression of ucn3 mRNA was detected in a range of adult issues and during developmental stages from 24 hours post fertilization nward. Analysis of spatial transcript distributions by whole-mount in itu hybridization revealed limited forebrain expression of uts1 and cn3 during early development. Small numbers of uts1-synthesizing eurons were found in subpallium, hypothalamus, and posterior iencephalon, whereas ucn3-positive cells were restricted to elencephalon and retina. The brainstem was the main site of uts1 and cn3 synthesis in the embryonic brain. uts1 Expression was confined to he midbrain tegmentum; distinct hindbrain cell groups, including locus oeruleus and Mauthner neurons; and the spinal cord. ucn3 Expression was ocalized to the optic tectum, serotonergic raphe, and distinct hombomeric cell clusters. The prominent expression of uts1 and ucn3 in rainstem is consistent with proposed roles of CRH-related peptides in tress-induced modulation of locomotor activity through monoaminergic rainstem neuromodulatory systems. J. Comp. Neurol. 518:2978-2995, 2010.

  • 2. Cao, Renhai
    et al.
    Jensen, Lasse Dahl Ejby
    Söll, Iris
    Södertörns högskola, Institutionen för livsvetenskaper.
    Hauptmann, Giselbert
    Södertörns högskola, Institutionen för livsvetenskaper.
    Cao, Yihai
    Hypoxia-Induced Retinal Angiogenesis in Zebrafish as a Model to Study Retinopathy2008Ingår i: PLoS ONE, ISSN 1932-6203, E-ISSN 1932-6203, Vol. 3, nr 7, s. e2748-Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    Mechanistic understanding and defining novel therapeutic targets of diabetic retinopathy and age-related macular degeneration (AMD) have been hampered by a lack of appropriate adult animal models. Here we describe a simple and highly reproducible adult fli-EGFP transgenic zebrafish model to study retinal angiogenesis. The retinal vasculature in the adult zebrafish is highly organized and hypoxia-induced neovascularization occurs in a predictable area of capillary plexuses. New retinal vessels and vascular sprouts can be accurately measured and quantified. Orally active anti-VEGF agents including sunitinib and ZM323881 effectively block hypoxia-induced retinal neovascularization. Intriguingly, blockage of the Notch signaling pathway by the inhibitor DAPT under hypoxia, results in a high density of arterial sprouting in all optical arteries. The Notch suppression-induced arterial sprouting is dependent on tissue hypoxia. However, in the presence of DAPT substantial endothelial tip cell formation was detected only in optic capillary plexuses under normoxia. These findings suggest that hypoxia shifts the vascular targets of Notch inhibitors. Our findings for the first time show a clinically relevant retinal angiogenesis model in adult zebrafish, which might serve as a platform for studying mechanisms of retinal angiogenesis, for defining novel therapeutic targets, and for screening of novel antiangiogenic drugs.

  • 3. Gabriel, Jens Peter
    et al.
    Mahmood, Riyadh
    Kyriakatos, Alexandros
    Söll, Iris
    Södertörns högskola, Institutionen för livsvetenskaper, Molekylärbiologi.
    Hauptmann, Giselbert
    Södertörns högskola, Institutionen för livsvetenskaper, Molekylärbiologi.
    Calabrese, Ronald L.
    El Manira, Abdeljabbar
    Serotonergic Modulation of Locomotion in Zebrafish-Endogenous Release and Synaptic Mechanisms2009Ingår i: Journal of Neuroscience, ISSN 0270-6474, E-ISSN 1529-2401, Vol. 29, nr 33, s. 10387-10395Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    Serotonin (5-HT) plays an important role in shaping the activity of the spinal networks underlying locomotion in many vertebrate preparations. At larval stages in zebrafish, 5-HT does not change the frequency of spontaneous swimming; and it only decreases the quiescent period between consecutive swimming episodes. However, it is not known whether 5-HT exerts similar actions on the locomotor network at later developmental stages. For this, the effect of 5-HT on the fictive locomotor pattern of juvenile and adult zebrafish was analyzed. Bath-application of 5-HT (1-20 mu M) reduced the frequency of the NMDA-induced locomotor rhythm. Blocking removal from the synaptic cleft with the reuptake inhibitor citalopram had similar effects, suggesting that endogenous serotonin is modulating the locomotor pattern. One target for this modulation was the mid-cycle inhibition during locomotion because the IPSPs recorded in spinal neurons during the hyperpolarized phase were increased both in amplitude and occurrence by 5-HT. Similar results were obtained for IPSCs recorded in spinal neurons clamped at the reversal potential of excitatory currents (0 mV). 5-HT also slows down the rising phase of the excitatory drive recorded in spinal cord neurons when glycinergic inhibition is blocked. These results suggest that the decrease in the locomotor burst frequency induced by 5-HT is mediated by a potentiation of mid-cycle inhibition combined with a delayed onset of the subsequent depolarization.

  • 4. Jensen, Lasse Dahl Ejby
    et al.
    Cao, Renhai
    Hedlund, Eva-Maria
    Söll, Iris
    Södertörns högskola, Institutionen för livsvetenskaper, Molekylärbiologi.
    Lundberg, Jon O.
    Hauptmann, Giselbert
    Södertörns högskola, Institutionen för livsvetenskaper, Molekylärbiologi.
    Steffensen, John Fleng
    Cao, Yihai
    Nitric oxide permits hypoxia-induced lymphatic perfusion by controlling arterial-lymphatic conduits in zebrafish and glass catfish2009Ingår i: Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, E-ISSN 1091-6490, Vol. 106, nr 43, s. 18408-18413Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    The blood and lymphatic vasculatures are structurally and functionally coupled in controlling tissue perfusion, extracellular interstitial fluids, and immune surveillance. Little is known, however, about the molecular mechanisms that underlie the regulation of bloodlymphatic vessel connections and lymphatic perfusion. Here we show in the adult zebrafish and glass catfish (Kryptopterus bicirrhis) that blood-lymphatic conduits directly connect arterial vessels to the lymphatic system. Under hypoxic conditions, arterial-lymphatic conduits (ALCs) became highly dilated and linearized by NO-induced vascular relaxation, which led to blood perfusion into the lymphatic system. NO blockage almost completely abrogated hypoxia-induced ALC relaxation and lymphatic perfusion. These findings uncover mechanisms underlying hypoxia-induced oxygen compensation by perfusion of existing lymphatics in fish. Our results might also imply that the hypoxia-induced NO pathway contributes to development of progression of pathologies, including promotion of lymphatic metastasis by modulating arterial-lymphatic conduits, in the mammalian system.

  • 5.
    Lauter, Gilbert
    et al.
    Södertörns högskola, Institutionen för livsvetenskaper. Karolinska Institutet.
    Söll, Iris
    Södertörns högskola, Institutionen för livsvetenskaper. Karolinska Institutet.
    Hauptmann, Giselbert
    Södertörns högskola, Institutionen för livsvetenskaper. Karolinska Institutet.
    PACAP in zebrafish neurodevelopment2009Ingår i: Mechanisms of Development, ISSN 0925-4773, E-ISSN 1872-6356, Vol. 126, s. S235-S235Artikel i tidskrift (Refereegranskat)
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