Oligodendrocyte-specific protein (OSP)/claudin-11 is a major component of central nervous system myelin and forms tight junctions (TJs) within myelin sheaths. TJs are essential for forming a paracellular barrier and have been implicated in the regulation of growth and differentiation via signal transduction pathways. We have identified an OSP/claudin-11–associated protein (OAP)1, using a yeast two-hybrid screen. OAP-1 is a novel member of the tetraspanin superfamily, and it is widely expressed in several cell types, including oligodendrocytes. OAP-1, OSP/claudin-11, and β1 integrin form a complex as indicated by coimmunoprecipitation and confocal immunocytochemistry. Overexpression of OSP/claudin-11 or OAP-1 induced proliferation in an oligodendrocyte cell line. Anti–OAP-1, anti–OSP/claudin-11, and anti–β1 integrin antibodies inhibited migration of primary oligodendrocytes, and migration was impaired in OSP/claudin-11–deficient primary oligodendrocytes. These data suggest a role for OSP/claudin-11, OAP-1, and β1 integrin complex in regulating proliferation and migration of oligodendrocytes, a process essential for normal myelination and repair.
The vesicular monoamine transporters (VMATs) 1 and 2 show close sequence similarity but substantial differences in apparent substrate affinity and drug sensitivity. To identify structural domains that determine these functional characteristics, chimeric transporters were constructed and their properties were analyzed in a heterologous expression system. The results implicate multiple regions in the recognition of serotonin and histamine and the sensitivity to tetrabenazine. Two domains of VMAT2, one extending from transmembrane domain (TMD) 5 to the beginning of TMD8 and the other from the end of TMD9 through TMD12, increase the affinity for serotonin and histamine as well as the sensitivity to tetrabenazine but only in the context of more C-terminal and more N-terminal VMAT2 sequences, respectively. In addition, the extreme N terminus of VMAT2 alone suffices to confer a partial increase in substrate affinity and tetrabenazine sensitivity. Despite these similarities among the interactions with serotonin, histamine, and tetrabenazine, the region of VMAT2 from TMD3 through TMD4 increases serotonin affinity but not histamine affinity or tetrabenazine sensitivity, and whereas the region from TMD5 to TMD8 of VMAT2 increases serotonin affinity in the context of more C-terminal VMAT2 sequences, the region encompassing TMD5 through TMD7 reduces serotonin but not histamine affinity or tetrabenazine sensitivity in the context of more N-terminal VMAT2 sequences. Thus, the chimeric analysis also reveals differences between serotonin recognition and the recognition of both histamine and tetrabenazine that may account for the observed differences in their interaction with the transport protein.
K(+) channels are differentially expressed throughout oligodendrocyte (Olg) development. K(V)1 family voltage-sensitive K(+) channels have been implicated in proliferation and migration of Olg progenitor cell (OPC) stage, and inward rectifier K+ channels (K(IR))4.1 are required for OPC differentiation to myelin-forming Olg. In this report we have identified a Shaw family K(+) channel, K(V)3.1, that is involved in proliferation and migration of OPC and axon myelination. Application of anti-K(V)3.1 antibody or knockout of Kv3.1 gene decreased the sustained K(+) current component of OPC by 50% and 75%, respectively. In functional assays block of K(V)3.1-specific currents or knockout of Kv3.1 gene inhibited proliferation and migration of OPC. Adult Kv3.1 gene-knockout mice had decreased diameter of axons and decreased thickness of myelin in optic nerves compared with age-matched wild-type littermates. Additionally, K(V)3.1 was identified as an associated protein of Olg-specific protein (OSP)/claudin-11 via yeast two-hybrid analysis, which was confirmed by coimmunoprecipitation and coimmunohistochemistry. In summary, the K(V)3.1 K(+) current accounts for a significant component of the total K(+) current in cells of the Olg lineage and, in association with OSP/claudin-11, plays a significant role in OPC proliferation and migration and myelination of axons.
Oligodendrocyte-specific protein (OSP) is concentrated in CNS myelin and is a potential autoantigen in the development of multiple sclerosis (MS). We performed proliferation assays with lymphocytes from MS patients and normal controls. OSP peptide-induced proliferation was common in relapsing-remitting MS and controls samples but was less pronounced in samples from secondary progressive MS subjects. These data demonstrate that OSP-reactive T cells are part of the normal immune repertoire and therefore have the potential to contribute to the pathogenesis of MS. Given the lack of specificity to MS, OSP-reactive T-cells are unlikely to be solely responsible for the disease process.
Many countries and regions across the globe broke their surface temperature records in recent years. Recent crippling heat waves swept across the Earth, further sparking concerns about the impending arrival of “tipping points” later in the 21st century. This study analyzes observed global surface temperature trends in three target latitudinal regions: the Arctic Circle, Tropics, and the Antarctic Circle. We show that global warming is accelerating unevenly across the planet, with the Arctic warming at more than three times the average rate of our world. We also analyzed the reliability of latitude‐dependent surface temperature simulations from a suite of Coupled Model Intercomparison Project Phase 6 (CMIP6) models and their multi‐model mean (MMM) by comparing their outputs to observational data sets. We selected the best‐performing models based on their statistical abilities to reproduce historical, latitude‐dependent values adapted from these data sets. The surface temperature projections were calculated from ensemble simulations of the Shared Socioeconomic Pathway 2–4.5 (SSP2–4.5) by the selected CMIP6 models. We estimate the calendar years of when surface temperatures will increase by 1.5, 2.0, and 2.5°C relative to the preindustrial period, both globally and in the three target regions. Our results reaffirm a dramatic, upward trend in projected surface temperatures, with unprecedented acceleration in the Arctic Circle, which could lead to catastrophic consequences across the Earth. Further studies are necessary to determine the most efficient solutions to reduce global warming acceleration and maintain a low SSP, both globally and regionally.
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