Uwe Thorsten Lux scite author profile

Uwe Thorsten Lux

5Publications

24Citation Statements Received

383Citation Statements Given

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240

358

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University of Erlangen-Nuremberg

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Siglec-15 on Osteoclasts Is Crucial for Bone Erosion in Serum-Transfer Arthritis

Korn

Schmitt

Angermüller

et al. 2020

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Siglec-15 is a conserved sialic acid-binding Ig-like lectin, which is expressed on osteoclasts. Deficiency of Siglec-15 leads to an impaired osteoclast development, resulting in a mild osteopetrotic phenotype. The role of Siglec-15 in arthritis is still largely unclear. To address this, we generated Siglec-15 knockout mice and analyzed them in a mouse arthritis model. We could show that Siglec-15 is directly involved in pathologic bone erosion in the K/BxN serum-transfer arthritis model. Histological analyses of joint destruction provided evidence for a significant reduction in bone erosion area and osteoclast numbers in Siglec-15 2/2 mice, whereas the inflammation area and cartilage destruction was comparable to wild-type mice. Thus, Siglec-15 on osteoclasts has a crucial function for bone erosion during arthritis. In addition, we generated a new monoclonal anti-Siglec-15 Ab to clarify its expression pattern on immune cells. Whereas this Ab demonstrated an almost exclusive Siglec-15 expression on murine osteoclasts and hardly any other expression on various other immune cell types, human Siglec-15 was more broadly expressed on human myeloid cells, including human osteoclasts. Taken together, our findings show a role of Siglec-15 as a regulator of pathologic bone resorption in arthritis and highlight its potential as a target for future therapies, as Siglec-15 blocking Abs are available.

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Lack of a Retinal Phenotype in a Syne-2/Nesprin-2 Knockout Mouse Model

Falk

Joachimsthaler

Kessler

et al. 2019

Cells

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Syne-2 (also known as Nesprin-2) is a member of a family of proteins that are found primarily in the outer nuclear membrane, as well as other subcellular compartments. Syne-2 contains a C-terminal KASH transmembrane domain and is part of a protein network that associates the nuclear envelope to the cytoskeleton via the binding to actin filaments. Syne-2 plays a role in nuclear migration, nuclear positioning during retinal development, and in ciliogenesis. In a previous study, we showed a connection between Syne-2 and the multifunctional scaffold protein Pericentrin (Pcnt). The elimination of the interaction of Syne-2 and Pcnt showed defects in nuclear migration and the formation of outer segments during retinal development, as well as disturbances in centrosomal migration at the beginning of ciliogenesis in general. In this study, the Syne-2 KO mouse model Nesprin-2△ABD (Syne-2tm1Ngl, MGI) with special attention to Pcnt and ciliogenesis was analyzed. We show reduced expression of Syne-2 in the retina of the Syne-2 KO mouse but found no significant structural—and only a minor functional—phenotype. For the first time, detailed expression analyses showed an expression of a Syne-2 protein larger than 400 kDa (~750 kDa) in the Syne-2/Nesprin-2 KO mouse. In conclusion, the lack of an overt phenotype in Syne-2/Nesprin-2 KO mice suggests the usage of alternative translational start sites, producing Syne-2 splice variants with an intact Pcnt interaction site. Nevertheless, deletion of the actin-binding site in the Syne-2/Nesprin-2 KO mouse revealed a high variability in scotopic oscillatory potentials assuming a novel function of Syne-2 in synchronizing inner retinal processes.

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T-Type Ca²⁺ Channels Boost Neurotransmission in Mammalian Cone Photoreceptors

et al. 2022

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It is a commonly accepted view that light stimulation of mammalian photoreceptors causes a graded change in membrane potential instead of developing a spike. The presynaptic Ca 21 channels serve as a crucial link for the coding of membrane potential variations into neurotransmitter release. Ca v 1.4 L-type Ca 21 channels are expressed in photoreceptor terminals, but the complete pool of Ca 21 channels in cone photoreceptors appears to be more diverse. Here, we discovered, employing whole-cell patch-clamp recording from cone photoreceptor terminals in both sexes of mice, that their Ca 21 currents are composed of low-(T-type Ca 21 channels) and high-(L-type Ca 21 channels) voltage-activated components. Furthermore, Ca 21 channels exerted self-generated spike behavior in dark membrane potentials, and spikes were generated in response to light/ dark transition. The application of fast and slow Ca 21 chelators revealed that T-type Ca 21 channels are located close to the release machinery. Furthermore, capacitance measurements indicated that they are involved in evoked vesicle release. Additionally, RT-PCR experiments showed the presence of Ca v 3.2 T-type Ca 21 channels in cone photoreceptors but not in rod photoreceptors. Altogether, we found several crucial functions of T-type Ca 21 channels, which increase the functional repertoire of cone photoreceptors. Namely, they extend cone photoreceptor light-responsive membrane potential range, amplify dark responses, generate spikes, increase intracellular Ca 21 levels, and boost synaptic transmission.

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Cell Types and Synapses Expressing the SNARE Complex Regulating Proteins Complexin 1 and Complexin 2 in Mammalian Retina

Lux

Ehrenberg

Joachimsthaler

et al. 2021

IJMS

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Complexins (Cplxs) 1 to 4 are components of the presynaptic compartment of chemical synapses where they regulate important steps in synaptic vesicle exocytosis. In the retina, all four Cplxs are present, and while we know a lot about Cplxs 3 and 4, little is known about Cplxs 1 and 2. Here, we performed in situ hybridization experiments and bioinformatics and exploited Cplx 1 and Cplx 2 single-knockout mice combined with immunocytochemistry and light microscopy to characterize in detail the cell type and synapse-specific distribution of Cplx 1 and Cplx 2. We found that Cplx 2 and not Cplx 1 is the main isoform expressed in normal and displaced amacrine cells and ganglion cells in mouse retinae and that amacrine cells seem to operate with a single Cplx isoform at their conventional chemical synapses. Surprising was the finding that retinal function, determined with electroretinographic recordings, was altered in Cplx 1 but not Cplx 2 single-knockout mice. In summary, the results provide an important basis for future studies on the function of Cplxs 1 and 2 in the processing of visual signals in the mammalian retina.

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Light Adaptation of Rod Photoreceptor Synapses by a Transducin-Complexin-SNARE Complex Interaction

et al. 2023

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Uwe Thorsten Lux

Siglec-15 on Osteoclasts Is Crucial for Bone Erosion in Serum-Transfer Arthritis

Lack of a Retinal Phenotype in a Syne-2/Nesprin-2 Knockout Mouse Model

T-Type Ca²⁺ Channels Boost Neurotransmission in Mammalian Cone Photoreceptors

Cell Types and Synapses Expressing the SNARE Complex Regulating Proteins Complexin 1 and Complexin 2 in Mammalian Retina

Light Adaptation of Rod Photoreceptor Synapses by a Transducin-Complexin-SNARE Complex Interaction

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Uwe Thorsten Lux

Siglec-15 on Osteoclasts Is Crucial for Bone Erosion in Serum-Transfer Arthritis

Lack of a Retinal Phenotype in a Syne-2/Nesprin-2 Knockout Mouse Model

T-Type Ca2+ Channels Boost Neurotransmission in Mammalian Cone Photoreceptors

Cell Types and Synapses Expressing the SNARE Complex Regulating Proteins Complexin 1 and Complexin 2 in Mammalian Retina

Light Adaptation of Rod Photoreceptor Synapses by a Transducin-Complexin-SNARE Complex Interaction

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T-Type Ca²⁺ Channels Boost Neurotransmission in Mammalian Cone Photoreceptors