347 resultados para TUBULIN
Resumo:
Die Morphogenese einer Pflanzenzelle wird in großem Maße durch die Dynamik kortikaler Mikrotubuli (MT) bestimmt, die auf die Zellwandsynthese Einfluß nehmen. In dieser Arbeit wurden die Transkriptmengen der alpha-Tubulin-Isotypen und des gamma-Tubulin während der Entwicklung des Gerstenblattes analysiert, um Zusammenhänge zu bereits beschriebenen Umwandlungen im kortikalen MT-Cytoskelett der Mesophyllzellen aufzudecken. Erstmals konnte bei einer höheren Pflanze die Genexpression auf RNA-Ebene innerhalb einer Tubulin-Multigenfamilie im Verlauf der Blattentwicklung umfassend dargestellt werden.Es wurden blattspezifische cDNA-Bibliotheken erstellt und mittels RT-PCR homologe DNA-Gensonden für die Screeningprozesse der cDNA-Bibliotheken hergestellt. cDNA-Sequenzen von alpha-, beta-, und gamma-Tubulin konnten isoliert werden. Weitere, weniger abundante alpha-Tubulin-Sequenzen wurden während zusätzlicher Screeningrunden über PCR-Ausschluß häufig vertretener, bereits bekannter Isotypen isoliert.Die cDNA-Sequenzen von insgesamt fünf verschiedenen Isotypen des alpha-Tubulin konnten aufgeklärt werden, drei Isotypen wiesen bis zu fünf im nicht kodierenden 3´-Bereich verkürzte Varianten auf, die aber in ihrer Anzahl deutlich unterrepräsentiert waren. Die abgeleiteten Aminosäuresequenzen umfassten bei drei Isotypen 451 Aminosäuren (AS), zwei Isotypen waren im C-Terminus um eine bzw. um zwei AS kürzer. Die fünf alpha-Tubulin-Isotypen wiesen charakteristische Expressionsmuster auf, die in drei Klassen unterteilbar waren. Die Isotypen HVATUB1 und HVATUB5 (MT-Band-Isotypen) hatten den maximalen Gehalt in Blattbereichen, in denen auch hauptsächlich Mesophyllzellen mit kortikalen MT-Bänderungen vorkommen, wobei HVATUB5 den am schwächsten exprimierte Isotyp darstellte. HVATUB3 (Random-MT-Isotyp) zeigte die stärksten Expressionsraten. Die im Meristem und meristemnahen Bereichen bereits recht hohe Abundanz erreichte erst nach der Zellstreckungszone in einer Blattzone das Maximum, in dem hauptsächlich Mesophyllzellen mit zerstreut angeordneten MT anzutreffen sind. Die Isotypen HVATUB2 und HVATUB4 (MImax-Isotypen) waren in mitotisch aktiven, basalen Blattbereichen dominant.Die cDNA-Sequenz vom gamma-Tubulin der Gerste, HVGTUB, wurde ermittelt; die abgeleitete Aminosäuresequenz bestand aus 469 AS. Das Auftreten einer im nicht kodierenden 3´-Bereich kürzeren Variante konnte erstmals bei pflanzlichem gamma-Tubulin beschrieben werden. Southernblot-Analysen ließen darauf schließen, daß gamma-Tubulin nur als Einzelkopie im Genom der Gerste vorkommt. gamma-Tubulin wurde im mitosereichen Meristem der Blattbasis am stärksten exprimiert. Da die Abnahme der Transkriptmenge weitaus langsamer verlief als die Abnahme der Zellteilungsaktivität, ist anzunehmen, daß gamma-Tubulin neben der Erfüllung von mitose- und zellteilungsspezifischen Funktionen auch eine Rolle im Zusammenhang mit der Dynamik des kortikalen MT-Cytoskeletts spielt. Einen ersten Schritt zur Aufklärung der Genfamilie des beta-Tubulin bei Gerste stellt die Isolierung drei verschiedener cDNA-Sequenzen von beta-Tubulin dar.
Resumo:
Mitotische und postmitotische Vorgänge pflanzlicher Zellen basieren auf der Funktion von Mikrotubuli. Es liegen nur wenige gesicherte Erkenntnisse zur Organisation dieser Multifunktionalität vor. Eine zentrale Bedeutung wird bei der Nukleation der Mikrotubuli an MTOCs durch γ-Tubulin zugeschrieben. Deren Zusammenlagerung an MTOCs ist jedoch noch nicht richtig verstanden. Domänen, die an der Proteinoberfläche exponiert werden, könnten in Interaktionen involviert sein. Hier werden im Besonderen der γ-A und γ-B-Peptivmotiv diskutiert. Es wurde das γ-A- und γ-B-Peptidmotiv des γ-Tubulins hinsichtlich einer Konservierung innerhalb des Pflanzenreiches untersucht. Die beiden Bereiche sind bei den grünen Landpflanzen stark konserviert. Sie divergieren stark zu den einzelligen Grünalgen Chlamydomonas reinhardtii und Chlorella spec. Es wurden daher in der bestehenden phylogentischen Lücke weitere Organismen hinsichtlich des γ-A und γ-B Peptidmotivs untersucht. Auswahlkriterien der Organismen waren Ein-/Mehrzelligkeit, Besitz/Abwesenheit von Centriolen und Besitz/Abwesenheit von Geißeln. Des weiteren wurde mit verschiedenen γ-Tubulin-Konstrukten um das γ-A- und γ-B-Peptidmotiv, gewonnen aus Nicotiana tabacum (BY2) mittels Y2H-System nach Interaktionspartnern gesucht. Bei den Sequenzuntersuchungen des γ-A- und γ-B-Peptidmotivs konnte festgestellt werden, dass die Konservierung innerhalb der Streptophytenlinie erfolgt. Interessant erweist sich die Tatsache, dass dieses Motiv bei den Jochalgen, welche ebenfalls den Streptophyten angehören, nur im γ-A-Peptidmotiv auftritt. Es besteht die Möglichkeit, dass die beiden potentiellen Interaktionspartner verschiedene Proteine als Interaktions-partner besitzen. Durch eine Anwendung eines auf dem GAL4-Protein basierenden Y2H-Systems mit vier unterschiedlichen Konstrukten des γ-Tubulin-A/B-Peptidbereichs als Köder-konstrukt und einer cDNA-Bibliothek als Beutekonstrukt, wurden diverse Sequenzen identifiziert. Identifiziert wurden das Poly(A)-Bindeprotein, Glycerin-aldehyd-3-phosphatdehydrogenase, die S-adenosyl-L-methionine-Synthetase, diverse Proteasom-Untereinheiten, eine sekretorische Peroxidase, eine Ascorbat-Peroxidase, die NtPOX1-Peroxidase und verschiedene Peroxidasen aus Nicotiana tabacum, Sequenzen des Chloroplastengenoms, ein Myosin-ähnliches Protein und eine Sequenz auf dem 5. Chromosom des Medicago truncatula-Klons mth2-16f8 und diverse humane Sequenzen der Proteine DKFZp68 und DKFZp77. Die Ergebnisse weisen auf eine komplexe Funktionsweise der unterschiedlichen Komponenten des pflanzlichen Cytoskeletts und des γ-Tubulins hin. Zur Aufklärung müsste dies in Zukunft mittels anderer genetischer, biochemischer oder funktioneller Methoden untersucht werden. Hypothesen über Interaktionen der Cytoskelettkomponenten können wahrscheinlich nicht allein durch die Anwendung des Y2H-Systems aufgeklärt werden.
Resumo:
Wie alle Eukaryoten besitzen auch höhere Pflanzen ein mikrotubuläres Cytoskelett. Einige Funktionen dieses Cytoskeletts sind relativ stark konserviert, andere dagegen scheinen sehr pflanzenspezifisch zu sein. Dies betrifft insbesondere charakteristische mikrotubuläre Netzwerke, die bei der Neubildung und der Verstärkung der Zellwände wichtige Rollen übernehmen. Wie der Aufbau dieser Netzwerke kontrolliert wird, ist bisher relativ unklar. Typische Mikrotubuli organisierende Zentren (MTOC), insbesondere Centrosomen oder Spindelpolkörper, sind bei höheren Pflanzen nicht beobachtet worden. Von pilzlichen und tierischen Organismen weiß man, dass gamma-Tubulin (gTUB) mit seinen assoziierten Proteinen in den MTOC bei der Nukleation von Mikrotubuli eine Schlüsselfunktion hat. Dieses Mitglied der Tubulin-Superfamilie wird aber auch in Pflanzen gefunden, dessen genaue Funktion bisher unbekannt ist. Zu Beginn der Arbeit wurden mittels in silico Berechnungen Strukturmodelle des pflanzlichen gTUBs aus Nicotiana tabacum erarbeitet, da die Struktur, die zu einem Verständnis der pflanzlichen Wachstumsregulation beitragen könnte, bisher unbekannt ist. Auf Grundlage der bioinformatischen Daten konnte für weitere Studien eine notwendige gTUB-Deletionsmutante entwickelt werden. Für Röntgendiffraktionsstudien und gTUB-Interaktionspartneranalysen war die Verfügbarkeit verhältnismäßig großer Proteinmengen notwendig. Die Expression der gTUB-Volllängensequenz in gelöster und aktiver Form stellte einen immanent wichtigen Zwischenschritt dar. Das Escherichia coli T7/lacO-Expressionssystem lieferte, trotz vielversprechender Erfolge in der Vergangenheit, kein gelöstes rekombinantes gTUB. So wurden zwar verhältnismäßig hohe Expressionsraten erzielt, aber das rekombinante gTUB lag quantitativ als Inclusion bodies vor. Eine Variationen der Expressionsparameter sowie umfangreiche Versuche mittels verschiedenster Konstrukte sowie potentiell die Löslichkeit erhöhenden Tags gTUB in gelöster Form in E. coli zu exprimieren blieben erfolglos. Eine Denaturierung der Inclusion bodies und Rückfaltung wurde aufgrund der wohl bei der Tubulinfaltung notwendigen komplexeren Chaperone sowie thermodynamischer Überlegungen ausgeschlossen. Die höher evolvierte Chaperonausstattung war ein Hauptgrund für die Verwendung der eukaryotischen Hefe-Expressionssysteme K. lactis und des S. cerevisiae-Stammes FGY217 zur gTUB-Expression. So konnten nach der Selektion nur transgene Hefe-Zellen dokumentiert werden, die die gTUB-Expressionskassette nachweislich an der vorgesehenen Zielposition in ihrem Genom integrierten, aber keine dokumentierbare Expression zeigten. Die wahrscheinlichste Begründung hierfür ist, dass ein erhöhter intrazellulärer gTUB-Titer mit dem Zellwachstum und der Zellteilung dieser eukaryotischen Organismen interferierte und durch Rückkopplungen die rekombinante gTUB-CDS aus N. tabacum ausgeschaltet wurde. Der Versuch einer transienten gTUB-Überexpression in differenzierten Blattgeweben höherer Pflanzen war eine logische Konsequenz aus den vorherigen Ergebnissen und lieferte, wenn auch nicht die für eine Proteinkristallisation notwendigen Mengen, gelöstes gTUB. Bestrebungen einer stabilen Transfektion von A. thaliana oder BY-2-Zellkulturen mit einer gTUB-CDS lieferten keine transgenen Organismen, was starke Interferenzen der rekombinanten gTUB-CDS in den Zellen vermuten lies. Transfektionsversuche mit nur GFP tragenden Konstrukten ergaben hingegen eine hohe Anzahl an transgenen Organismen, die auch verhältnismäßig starke Expressionsraten zeigten. Die erzielten Proteinmengen bei der transienten gTUB-Überexpression in N. benthamiana Blattgeweben, in Co-Expression mit dem Posttransriptional Gene Silencing-Suppressorprotein p19, waren für einen Pull-Down sowie eine massenspektroskopische Analyse der Interaktionspartner ausreichend und ergaben Befunde. Eine abschließende Auswertung des erarbeiteten massenspektroskopischen Datensatzes wird jedoch erst dann möglich sein, wenn das Tabak-Proteom vollständig sequenziert ist. Die Erweiterung der bestehenden pflanzlichen Vergleichsdatenbanken um das bisher bekannte Tabak-Proteom vervielfachte die Anzahl der in dieser Studie identifizierten gTUB-Interaktionspartner. Interaktionen mit dem TCP1-Chaperon untermauern die Hypothese der zur Faltung pflanzlichen gTUBs notwendigen Chaperone. Beobachtete gTUB-Degradationsmuster in Verbindung mit Interaktionen des 26S-Proteasoms deuten auf eine Gegenregulationen bei erhöhtem gTUB-Titer auf Proteinebene hin. Da Blattgewebe selbst nur noch über eine sehr geringe und inhomogene Teilungsaktivität verfügen ist diese Regulation hoch spannend. Auch konnte durch Co-Expression des PTGS-Suppressorproteins p19 gezeigt werden, dass bei der gTUB-Expression eine Regulation auf RNA-Ebene erfolgt.
Resumo:
The tubulin-binding mode of C3- and C15-modified analogues of epothilone A (Epo A) was determined by NMR spectroscopy and computational methods and compared with the existing structural models of tubulin-bound natural Epo A. Only minor differences were observed in the conformation of the macrocycle between Epo A and the C3-modified analogues investigated. In particular, 3-deoxy- (compound 2) and 3-deoxy-2,3-didehydro-Epo A (3) were found to adopt similar conformations in the tubulin-binding cleft as Epo A, thus indicating that the 3-OH group is not essential for epothilones to assume their bioactive conformation. None of the available models of the tubulin-epothilone complex is able to fully recapitulate the differences in tubulin-polymerizing activity and microtubule-binding affinity between C20-modified epothilones 6 (C20-propyl), 7 (C20-butyl), and 8 (C20-hydroxypropyl). Based on the results of transferred NOE experiments in the presence of tubulin, the isomeric C15 quinoline-based Epo B analogues 4 and 5 show very similar orientations of the side chain, irrespective of the position of the nitrogen atom in the quinoline ring. The quinoline side chain stacks on the imidazole moiety of beta-His227 with equal efficiency in both cases, thus suggesting that the aromatic side chain moiety in epothilones contributes to tubulin binding through strong van der Waals interactions with the protein rather than hydrogen bonding involving the heteroaromatic nitrogen atom. These conclusions are in line with existing tubulin polymerization and microtubule-binding data for 4, 5, and Epo B.
Resumo:
An efficient new synthesis has been elaborated for non-natural (-)-dactylolide ((-)-2) and its 13-desmethylene analogue 4, employing a HWE-based macrocyclization approach with beta-keto-phosphonate/aldehyde 19 and the respective 13-desmethylene derivative as the key intermediates. Both (-)-2 and 4 as well as the corresponding C20 alcohols inhibit human cancer cell proliferation with IC(50) values in the sub-micromolar range and induce the polymerization of tubulin in vitro.
Resumo:
Monoclonal antibodies (mabs) were generated against whole sonicated Neospora caninum tachyzoites as immunogen. Initial ELISA screening of the reactivity of hybridoma culture supernatants using the same antigen and antigen treated with sodium periodate prior to antibody binding resulted in the identification of 8 supernatants with reactivity against putative carbohydrate epitopes. Following immunoblotting, mab6D12 (IgG1), binding a 52/48-kDa doublet, and mab6C6 (IgM), binding a 190/180-kDa doublet, were selected for further studies. Immunofluorescence of tachyzoite-infected cultures localized the corresponding epitopes not to the surface, but to interior epitopes at the apical part of N. caninum tachyzoites. During in vitro tachyzoite to bradyzoite stage conversion, mab6C6 labeling translocated toward the cyst periphery, while for mab6D12 no changes in localization were noted. Upon extraction of tachyzoites with the nonionic detergent Triton-X-100, the 52-kDa band recognized by mab6D12 was present exclusively in the insoluble, cytoskeletal fraction of both N. caninum and Toxoplasma gondii tachyzoites. Tandem mass spectrometry analysis identified this protein as N. caninum beta tubulin. The 48-kDa band labeled by mab6D12 was a Vero cell protein contamination. The protein(s) reacting with mab6C6 could not be conclusively identified by mass spectrometry. Immunofluorescence consistently failed to label T. gondii tachyzoites, indicating that beta tubulin in T. gondii and N. caninum could be differentially modified or that the reactive epitope in T. gondii is masked. Immunogold TEM of isolated apical cytoskeletal preparations and dual immunofluorescence with antibody to tubulin confirmed that mab6D12 binds to the anterior part of apical complex-associated microtubules. The sodium periodate sensitivity of the beta tubulin associated epitope was confirmed by immunoblotting and ELISA, and treatment of N. caninum cytoskeletal proteins with sialidase prior to mab6D12 labeling resulted in a profound loss of antibody binding, suggesting that mab6D12 reacts with sialylated beta tubulin.
Resumo:
A series of epothilone B and D analogues bearing isomeric quinoline or functionalized benzimidazole side chains has been prepared by chemical synthesis in a highly convergent manner. All analogues have been found to interact with the tubulin/microtubule system and to inhibit human cancer cell proliferation in vitro, albeit with different potencies (IC(50) values between 1 and 150 nM). The affinity of quinoline-based epothilone B and D analogues for stabilized microtubules clearly depends on the position of the N-atom in the quinoline system, while the induction of tubulin polymerization in vitro appears to be less sensitive to N-positioning. The potent inhibition of human cancer cell growth by epothilone analogues bearing functionalized benzimidazole side chains suggests that these systems might be conjugated with tumor-targeting moieties to form tumor-targeted prodrugs.
Resumo:
Benzimidazoles were the first broad-spectrum anthelmintics and are still in use today against gastro-intestinal nematodes of ruminants such as Haemonchus contortus. Benzimidazoles block the polymerization of nematode microtubules. However, their efficacy is jeopardized by the spread of drug-resistant parasites that carry point mutations in beta-tubulin. Here we use a novel in vitro selection-in vivo propagation protocol to breed drug-resistant H. contortus. After 8 generations of selection with thiabendazole an in vitro resistance factor of 1000 was reached that was also relevant in vivo in infected sheep. The same procedure carried out with ivermectin produced only a moderate resistance phenotype that was not apparent in sheep. Cloning and sequencing of the beta-tubulin genes from the thiabendazole-resistant H. contortus mutants revealed all of the isotype 1 alleles, and part of the isotype 2 alleles, to carry the mutation glutamate(198) to alanine (E198A). An allele-specific PCR was developed, which may be helpful in monitoring the prevalence of alanine(198) encoding alleles in the beta-tubulin isotype 1 gene pool of H. contortus in the field.
Resumo:
Revertants of a colcemid-resistant Chinese hamster ovary cell line with an altered (D45Y) beta-tubulin have allowed the identification of four cis-acting mutations (L187R, Y398C, a 12-amino acid in-frame deletion, and a C-terminal truncation) that act by destabilizing the mutant tubulin and preventing it from incorporating into microtubules. These unstable beta-tubulins fail to form heterodimers and are predominantly found in association with the chaperonin CCT, suggesting that they cannot undergo productive folding. In agreement with these in vivo observations, we show that the defective beta-tubulins do not stably interact with cofactors involved in the tubulin folding pathway and, hence, fail to exchange with beta-tubulin in purified alphabeta heterodimers. Treatment of cells with MG132 causes an accumulation of the aberrant tubulins, indicating that improperly folded beta-tubulin is degraded by the proteasome. Rapid degradation of the mutant tubulin does not elicit compensatory changes in wild-type tubulin synthesis or assembly. Instead, loss of beta-tubulin from the mutant allele causes a 30-40% decrease in cellular tubulin content with no obvious effect on cell growth or survival.
Resumo:
Cytokinesis in bacteria depends upon the contractile Z ring, which is composed of dynamic polymers of the tubulin homolog FtsZ as well as other membrane-associated proteins such as FtsA, a homolog of actin that is required for membrane attachment of the Z ring and its subsequent constriction. Here we show that a previously characterized hypermorphic mutant FtsA (FtsA*) partially disassembled FtsZ polymers in vitro. This effect was strictly dependent on ATP or ADP binding to FtsA* and occurred at substoichiometric levels relative to FtsZ, similar to cellular levels. Nucleotide-bound FtsA* did not affect FtsZ GTPase activity or the critical concentration for FtsZ assembly but was able to disassemble preformed FtsZ polymers, suggesting that FtsA* acts on FtsZ polymers. Microscopic examination of the inhibited FtsZ polymers revealed a transition from long, straight polymers and polymer bundles to mainly short, curved protofilaments. These results indicate that a bacterial actin, when activated by adenine nucleotides, can modify the length distribution of bacterial tubulin polymers, analogous to the effects of actin-depolymerizing factor/cofilin on F-actin.
Resumo:
Vertebrates produce at least seven distinct beta-tubulin isotypes that coassemble into all cellular microtubules. The functional differences among these tubulin isoforms are largely unknown, but recent studies indicate that tubulin composition can affect microtubule properties and cellular microtubule-dependent behavior. One of the isotypes whose incorporation causes the largest change in microtubule assembly is beta5-tubulin. Overexpression of this isotype can almost completely destroy the microtubule network, yet it appears to be required in smaller amounts for normal mitotic progression. Moderate levels of overexpression can also confer paclitaxel resistance. Experiments using chimeric constructs and site-directed mutagenesis now indicate that the hypervariable C-terminal region of beta5 plays no role in these phenotypes. Instead, we demonstrate that two residues found in beta5 (Ser-239 and Ser-365) are each sufficient to inhibit microtubule assembly and confer paclitaxel resistance when introduced into beta1-tubulin; yet the single mutation of residue Ser-239 in beta5 eliminates its ability to confer these phenotypes. Despite the high degree of conservation among beta-tubulin isotypes, mutations affecting residue 365 demonstrate that amino acid substitutions can be context sensitive; i.e. an amino acid change in one isotype will not necessarily produce the same phenotype when introduced into a different isotype. Modeling studies indicate that residue Cys-239 of beta1-tubulin is close to a highly conserved Cys-354 residue suggesting the possibility that disulfide formation could play a significant role in the stability of microtubules formed with beta1- but not with beta5-tubulin.
Resumo:
The availability of isotype specific antisera for $\beta$-tubulin, coupled with genetic and biochemical analysis, has allowed the determination of $\beta$-tubulin isotype expression and distribution in Chinese hamster ovary (CHO) cells. Using genetic manipulations involving selection for colcemid resistance followed by reversion and reselection for drug resistance, we have succeeded in isolating cell lines that exhibit three major and one minor $\beta$-tubulin spots by two-dimensional gel electrophoresis. In concert with isotype specific antibodies, analysis of these mutants demonstrates that CHO cells express two copies of isotype I, at least one copy of isotype IV, and very small amounts of isotype V. Their stoichiometry is approximately 1:1:0.7:0.2. All three isotypes assemble into both cytoplasmic and spindle microtubules, and are similar in their responses to cold, colcemid, and calcium induced depolymerization. They have comparable turnover rates and are equally sensitive to depression of synthesis upon colchicine treatment. These results suggest that $\beta$-tubulin isotypes are used interchangeably to assemble microtubule structures in CHO cells. However, of 18 colcemid resistant mutants with a demonstrable alteration in $\beta$-tubulin, all were found to have the alteration in isotype I, thus leaving open the possibility that subtle differences in isotype properties may exist. Under various conditions of the cell growth, the relative proportion of each expressed isotype does not significantly seem to change except in the early G1 phase of the cell cycle. At this time the synthesis of isotype V increases more than two fold relative to isotype I and IV, while at the same time, total $\beta$-tubulin synthesis is decreased about 60-70%. ^
Resumo:
Cmd4 is a colcemid-sensitive CHO cell line that is temperature sensitive for growth and expresses an altered $\beta$-tubulin, $\beta\sb1$. One revertant of this cell line, D2, exhibits a further alteration in $\beta\sb1$ resulting in an acidic shift in its isoelectric point and a decrease in its molecular weight to 40 kD, as measured by two dimensional gel electrophoresis. This $\beta$-tubulin variant has been shown to be assembly-defective and unstable. Characterization of the mutant $\beta\sb1$ in D2 by high pressure liquid chromatography (HPLC) revealed the loss of methionine containing tryptic peptides 7,8,9, and 10. Southern analysis of the genomic DNA digested with several different restriction enzymes resulted in the appearance of new restriction fragments 250 base pairs shorter than the corresponding fragments from the wild-type $\beta\sb1$-tubulin gene. Northern analysis on mRNA from D2 revealed two new message products that also differed by 250 bases from the corresponding wild type $\beta$-tubulin transcripts. To precisely define the region of the alteration, cloning and sequencing of the mutant and wild type genomic $\beta$-tubulin genes were conducted. A size-selected EcoRI genomic library was prepared using the Stratagene lambda Zap II phage cloning system. Using subclones of CHO $\beta$-tubulin cDNA as probes, a 2.5 kb wild type clone and a 2.3 kb mutant clone were identified from this library. Each of these was shown to contain a portion of the gene extending from intron 3 through the end of the coding sequence in exon 4 and into the 3$\sp\prime$ untranslated region on the basis of alignment with the published human $\beta$-tubulin sequence. Sequencing of the mutant 2.3 kb clone revealed that the mutation is due to a 246 base pair internal deletion in exon 4 (base pair 756-1001) that encodes amino acids 253-334. This deletion results in the loss of a putative binding site for GTP which could potentially explain the phenotype of this mutant $\beta$-tubulin. Also sequence comparison of the 3$\sp\prime$ untranslated region between different species revealed the conservation of 200 base pairs with 78% homology. It is proposed that this region could play an important role in the regulation of $\beta$-tubulin gene expression. ^
Resumo:
Alpha and beta tubulin are essential proteins in all eukaryotic cells. To study how cells maintain coordinate levels of these two interacting proteins, we have used PCR to add a 9 amino acid epitope from influenza hemagglutinin protein onto the carboxyl terminus of $\alpha$1 and $\beta$1-tubulin. The chimeric tubulin genes (HA$\alpha$1 and HA$\beta$1) were transfected into CHO cells and cell lines that stably express each gene were selected. Cells transfected with HA-tubulin do not exhibit any gross changes in growth or morphology. Immunofluorescence analysis demonstrated that HA-tubulins incorporate into both cytoplasmic and spindle microtubules. A quantitative biochemical assay was used to show that HA-tubulins incorporate into microtubules to a normal extent and do not alter the steady state distribution of endogenous tubulin between monomer and polymer pools. Two-dimensional gel analysis of pulse-labeled cells indicated that when HA$\beta$1-tubulin is expressed at high levels, it slightly represses the synthesis of the endogenous $\beta$-tubulin but produces a small increase in the synthesis of $\alpha$-tubulin. Analysis of cells labeled to steady state showed that HA$\beta$1-tubulin accumulates to a similar level as the wild-type gene product, but together these polypeptides produce only a small increase in total tubulin content consistent with the increased synthesis of $\alpha$-tubulin. It thus appears that HA$\beta$1-tubulin successfully competes with endogenous $\beta$-tubulin for heterodimer formation and that free $\beta$-tubulin subunits (endogenous and HA$\beta$1) are selectively degraded to maintain coordinate amounts of $\alpha$- and $\beta$-tubulin. In addition, the increased synthesis of $\alpha$-tubulin suggested the existence of a mechanism to ensure coordinate synthesis of $\alpha$- and $\beta$-tubulin subunits. To analyze whether reciprocal changes in endogenous tubulin synthesis occur when $\alpha$-tubulin is overexpressed, stably transfected CHO cell lines were isolated in which HA$\alpha$1-tubulin represents 50% of the total $\alpha$-tubulin, and its relative abundance can be further increased to 85-90% by treatment with sodium butyrate. In contrast with results obtained using HA$\beta$1-tubulin, transfection of HA$\alpha$1-tubulin decreased the synthesis of endogenous $\alpha$-tubulin to 60% of normal with little or no change in $\beta$-tubulin synthesis. When the transfected cells were treated with sodium butyrate to further increase HA$\beta$1-tubulin production, a larger decrease in the synthesis of endogenous $\alpha$-tubulin (to 30% of normal) was observed. The repression on the synthesis of endogenous $\alpha$-tubulin polypeptide was found to be directly proportional to the expression of HA$\alpha$1-tubulin indicating the existence of an autoregulatory loop, where $\alpha$-tubulin inhibits its own synthesis. To determine whether overproduction of HA$\alpha$1-tubulin affected the transcription, message stability or translation of endogenous $\alpha$-tubulin, the steady state levels of $\alpha$-tubulin mRNA were analyzed by ribonuclease protection assays. The results showed that the steady state level of $\alpha$-tubulin mRNA is not affected by the overexpression of HA$\alpha$1-tubulin, indicating that the repression is translational. The results are compatible with a model in which $\beta$-tubulin synthesis is largely unperturbed by overexpression of other tubulin subunits, and excess $\beta$-tubulin subunits are rapidly degraded to maintain coordinate $\alpha$- and $\beta$-tubulin levels at steady state. In contrast, free $\alpha$-tubulin represses its own synthesis at the translational level, suggesting that its level of production may be controlled by the amount of $\beta$-tubulin available for heterodimer formation. ^
Resumo:
BACKGROUND Cavalier King Charles Spaniels (CKCS) have a high prevalence of inherited macrothrombocytopenia. The purpose of this study was to determine if a mutation in beta1-tubulin correlated with presumptive inherited macrothrombocytopenia. HYPOTHESIS A mutation in beta1-tubulin results in synthesis of an altered beta1-tubulin monomer. alpha-beta tubulin dimers within microtubule protofilaments are unstable, resulting in altered megakaryocyte proplatelet formation. ANIMALS Blood samples were obtained from CKCS and non-CKCS dogs. METHODS DNA was used in polymerase chain reaction (PCR) assays to evaluate beta1-tubulin. Platelet numbers and mean platelet volume (MPV) were evaluated for a correlation with the presence or absence of a mutation identified in beta1-tubulin. Platelets obtained from homozygous, heterozygous, and clear CKCS were further evaluated using electron microscopy and immunofluorescence. RESULTS A mutation in the gene encoding beta1-tubulin correlated with macrothrombocytopenia in CKCS. Electron microscopy and immunofluorescence studies suggest that platelet microtubules are present but most likely are unstable and decreased in number. CONCLUSIONS AND CLINICAL IMPORTANCE The macrothrombocytopenia of CKCS correlated with a mutation in beta1-tubulin. alpha-beta tubulin dimers within protofilaments most likely are unstable, leading to altered proplatelet formation by megakaryocytes. This information will aid in distinguishing inherited from acquired thrombocytopenia. It also provides insight into the mechanism of platelet production by megakaryocytes, and also may prove useful in understanding heart-related changes in macrothrombocytopenic CKCS with concurrent mitral valve regurgitation.
