George T. Mantchev scite author profile

Long-lived humoral immunity is manifested by the ability of bone marrow plasma cells (PCs) to survive for extended periods of time. Recent studies have underscored the importance of BLyS and APRIL as factors that can support the survival of B lineage lymphocytes. We show that BLyS can sustain PC survival in vitro, and this survival can be further enhanced by interleukin 6. Selective up-regulation of Mcl-1 in PCs by BLyS suggests that this ␣ -apoptotic gene product may play an important role in PC survival. Blockade of BLyS, via transmembrane activator and cyclophilin ligand interactor-immunoglobulin treatment, inhibited PC survival in vitro and in vivo. Heightened expression of B cell maturation antigen (BCMA), and lowered expression of transmembrane activator and cyclophilin ligand interactor and BAFF receptor in PCs relative to resting B cells suggests a vital role of BCMA in PC survival. Affirmation of the importance of BCMA in PC survival was provided by studies in BCMA Ϫ / Ϫ mice in which the survival of long-lived bone marrow PCs was impaired compared with wild-type controls. These findings offer new insights into the molecular basis for the long-term survival of PCs.

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Lack of Acrosome Formation in Hrb-Deficient Mice

Kang-Decker

Mantchev

Juneja

et al. 2001

Science

220

189

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The sperm acrosome is essential for sperm-egg fusion and is often defective in men with nonobstructive infertility. Here we report that male mice with a null mutation in Hrb are infertile and display round-headed spermatozoa that lack an acrosome. In wild-type spermatids, Hrb is associated with the cytosolic surface of proacrosomic transport vesicles that fuse to create a single large acrosomic vesicle at step 3 of spermiogenesis. Although proacrosomic vesicles form in spermatids that lack Hrb, the vesicles are unable to fuse, blocking acrosome development at step 2. We conclude that Hrb is required for docking and/or fusion of proacrosomic vesicles during acrosome biogenesis.

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Disruption of the FG nucleoporin NUP98 causes selective changes in nuclear pore complex stoichiometry and function

Kasper

Mantcheva

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

134

122

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The NUP98 gene encodes precursor proteins that generate two nucleoplasmically oriented nucleoporins, NUP98 and NUP96. By using gene targeting, we have selectively disrupted the murine NUP98 protein, leaving intact the expression and localization of NUP96. We show that NUP98 is essential for mouse gastrulation, a developmental stage that is associated with rapid cell proliferation, but dispensable for basal cell growth. NUP98؊͞؊ cells had an intact nuclear envelope with a normal number of embedded nuclear pore complexes. Typically, NUP98-deficient cells contained on average approximately 5-fold more cytoplasmic annulate lamellae than control cells. We found that a set of cytoplasmically oriented nucleoporins, including NUP358, NUP214, NUP88, and p62, assembled inefficiently into nuclear pores of NUP98؊͞؊ cells. Instead, these nucleoporins were prominently associated with the annulate lamellae. By contrast, a group of nucleoplasmically oriented nucleoporins, including NUP153, NUP50, NUP96, and NUP93, had no affinity for annulate lamellae and assembled normally into nuclear pores. Mutant pores were significantly impaired in transport receptor-mediated docking of proteins with a nuclear localization signal or M9 import signal and showed weak nuclear import of such substrates. In contrast, the ability of mutant pores to import ribosomal protein L23a and spliceosome protein U1A appeared intact. These observations show that NUP98 disruption selectively impairs discrete protein import pathways and support the idea that transport of distinct import complexes through the nuclear pore complex is mediated by specific subsets of nucleoporins.T ransport between the nucleus and the cytoplasm occurs through nuclear pore complexes (NPCs) embedded in the nuclear envelope (NE). NPCs have an 8-fold rotational symmetry in the plane parallel to the NE (reviewed in ref. 1). Each NPC contains a membrane-embedded central framework that embraces a central pore. The central framework consists of a ring-like spoke complex that is sandwiched between a cytoplasmic and a nuclear ring. Each cytoplasmic ring supports eight fibrils that extend into the cytoplasm, whereas each nuclear ring carries eight filaments that join distally to form a basket-like assembly (1, 2). The vertebrate NPC has an estimated molecular mass of Ϸ125 MDa and is composed of Ϸ80-100 different proteins called nucleoporins, of which 16-20 have been cloned (3). In contrast, the Saccharomyces cerevisiae NPC is only Ϸ66 MDa (4) and is composed of Ϸ35-50 nucleoporins, of which more than 30 have now been identified (5).Nucleocytoplasmic transport is mediated by soluble transport factors that belong to the karyopherin family of transport receptors, whose members can be subdivided into importins and exportins. Typically, a given transport receptor binds to an import or export signal-containing cargo in one compartment, guides it to and accompanies it through an NPC, releases it in the opposite compartment, and then shuttles back to the first compartment to repeat the cycle (see r...

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TACI Is Required for Efficient Plasma Cell Differentiation in Response to T-Independent Type 2 Antigens

Mantchev¹,

Cortesão²,

Rebrovich³

et al. 2007

102

108

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The control of systemic infection by encapsulated microorganisms requires T-independent type II (TI-2) Ab responses to bacterial polysaccharides. To understand how such responses evolve, we explored the function of transmembrane activator calcium modulator and cyclophilin ligand interactor (TACI), a member of the TNFR family, required for TI-2 Ab production. Quasimonoclonal (QM) mice produce robust TI-2 responses to 4-hydroxy-3-nitrophenylacetate (NP)-Ficoll, owing to the high precursor frequency of NP-specific B cells in the marginal zone of the spleen. QM mice that lack TACI produce decreased numbers of IgM (2-fold) and IgG (1.6-fold) NP-specific ASCs, compared with TACI-positive QM mice in response to immunization with NP-Ficoll. Our studies indicate that TACI acts at a remote time from activation because TACI is not necessary for activation and proliferation of B cells both in vitro and in vivo. Instead, TACI-deficient QM B cells remained in the cell cycle longer than TACI-proficient QM cells and had impaired plasma cell differentiation in response to NP-Ficoll. We conclude that TACI has dual B cell-autonomous functions, inhibiting prolonged B cell proliferation and stimulating plasma cell differentiation, thus resolving the longstanding paradox that TACI may have both B cell-inhibitory and -stimulatory functions. By promoting plasma cell differentiation earlier during clonal expansion, TACI may decrease the chances of autoantibody production by somatic hypermutation of Ig genes in response to T-independent Ags.

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