Involvement of neurofilaments in motor neuron disease.

Motor neuron disease is clinically characterized by progressive muscle wasting leading to total muscle paralysis. A long history of pathological study of patients has firmly established that the primary lesion site is in spinal and cortical motor neurons. In addition to the wide-spread loss of these neurons, neuronal abnormalities including massive accumulation of neurofilaments in cell bodies and proximal axons have been also widely observed, particularly in the early stages of the disease.

Surgical connections from ventricle to pulmonary artery. Comparison of four types of valved implants.

Background: Four types of valved conduits used to correct venous ventricle to pulmonary artery (V-PA) discontinuity were compared.

Methods And Results: Four hundred fifty-seven patients with congenital heart defects requiring a V-PA connection during the past 25 years were reviewed. Age at implant varied from 1 day to 64 years (mean, 9.

Failure of cryopreserved homograft valved conduits in the pulmonary circulation.

Background: This study evaluates our experience with the cryopreserved homograft valved conduit used for reconstruction of the pulmonary circulation in patients with congenital heart disease.

Methods And Results: Between July 1, 1985, and December 31, 1990, 219 patients had cryopreserved homograft extracardiac valved conduits placed in the pulmonary circuit. Average age at operation was 7.

CENP-E is a putative kinetochore motor that accumulates just before mitosis.

The mechanics of chromosome movement, mitotic spindle assembly and spindle elongation have long been central questions of cell biology. After attachment in prometaphase of a microtubule from one pole, duplicated chromosome pairs travel towards the pole in a rapid but discontinuous motion. This is followed by a slower congression towards the midplate as the chromosome pair orients with each kinetochore attached to the microtubules from the nearest pole.

Evidence for instability of mRNAs containing AUUUA motifs mediated through translation-dependent assembly of a > 20S degradation complex.

Many short-lived mRNAs, including those encoding lymphokines, cytokines, and proto-oncogenes, contain an AU-rich sequence in their 3'-untranslated regions. These AU domains and, more specifically, AUUUA motifs within them, are widely thought to mediate the extreme instability of the corresponding mRNAs. This is most clearly true for granulocyte monocyte colony stimulating factor (GM-CSF) mRNA whose AUUUA motifs are conserved phylogenetically and whose presence in an otherwise stable beta-globin mRNA results in a 50-fold decrease in accumulated mRNA level.

Survey of tissue diagnostic services in U.S. dental schools - 1990.

Tissue diagnostic services in U.S. dental schools were surveyed to determine activities during 1990.

Gamma-tubulin is a centrosomal protein required for cell cycle-dependent microtubule nucleation.

gamma-Tubulin is a newly identified member of the tubulin family whose sequence is highly conserved from yeast to man. This minor microtubule protein is localized to the microtubule organizing centres and a mutation in the gene encoding it produces a microtubuleless mitotic arrest in the filamentous fungus Aspergillus nidulans. Here we investigate the in vivo function of gamma-tubulin in mammalian cells using a synthetic peptide to generate a polyclonal antibody that binds to a highly conserved segment of gamma-tubulin.

Primary structure of NuMA, an intranuclear protein that defines a novel pathway for segregation of proteins at mitosis.

From a collection of monoclonal antibodies that specifically bind to various parts of the mitotic apparatus in human cells (1991. J. Cell Biol.

Physical evidence for cotranslational regulation of beta-tubulin mRNA degradation.

Tubulin synthesis is controlled by an autoregulatory mechanism through which an increase in the intracellular concentration of tubulin subunits leads to specific degradation of tubulin mRNAs. The sequence necessary and sufficient for the selective degradation of a beta-tubulin mRNA in response to changes in the level of free tubulin subunits resides within the first 13 translated nucleotides that encode the amino-terminal sequence of beta-tubulin, Met-Arg-Glu-Ile (MREI). Previous results have suggested that the sequence responsible for autoregulation resides in the nascent peptide rather than in the mRNA per se, raising the possibility that the regulation of the stability of tubulin mRNA is mediated through binding of tubulin or some other cellular factor to the nascent amino-terminal tubulin peptide.

Quantitative evaluation of Langerhans cells in median rhomboid glossitis.

Langerhans cells (LC) serve as antigen presenting cells and provide immune surveillance within epithelia. Since depression of LC number and/or function may allow tolerance to antigens, we evaluated LC in median rhomboid glossitis (MRG), a condition linked to persistent candidal infection of lingual mucosa. Material included a total of 36 cases of MRG (7 of which did not show PAS + fungi) and 6 controls.

Dynactin, a conserved, ubiquitously expressed component of an activator of vesicle motility mediated by cytoplasmic dynein.

Although cytoplasmic dynein is known to attach to microtubules and translocate toward their minus ends, dynein's ability to serve in vitro as a minus end-directed transporter of membranous organelles depends on additional soluble factors. We show here that a approximately 20S polypeptide complex (referred to as Activator I; Schroer, T. A.

Results of the Fontan procedure for patients with univentricular heart.

One hundred twenty-four consecutive patients with univentricular heart undergoing the Fontan operation were reviewed. Patients with tricuspid atresia or biventricular heart with hypoplasia of one ventricle were excluded. Eighty-four patients had left ventricular morphology.

Intraoral cytomegalovirus lesion and HIV-associated periodontitis in a patient with acquired immunodeficiency syndrome.

Exposure to cytomegalovirus (CMV) is common in persons infected with the human immunodeficiency virus. Autopsy studies have documented the presence of CMV in multiple organs, but CMV is seldom indicated as the causative agent in specific diseases. Few reports have described localized CMV infection in the oral cavity.

Neuronal and glial cytoskeletons.

Long-awaited evidence for in vivo functions of the major neuronal microtubule associated proteins indicates that they are directly involved in neurite extension. Companion evidence reveals an intrinsic role for glial intermediate filaments in glial cell extension along neurites and for neurofilaments in establishing axonal caliber. New fluorescence and photoactivation experiments require a re-thinking of models of slow axonal transport and of the part the cytoskeleton plays in axonal guidance.

CENP-E, a novel human centromere-associated protein required for progression from metaphase to anaphase.

We have identified a novel human centromere-associated protein by preparing monoclonal antibodies against a fraction of HeLa chromosome scaffold proteins enriched for centromere/kinetochore components. One monoclonal antibody (mAb177) specifically stains the centromere region of mitotic human chromosomes and binds to a novel, approximately 250-300 kd chromosome scaffold associated protein named CENP-E. In cells progressing through different parts of the cell cycle, the localization of CENP-E differed markedly from that observed for the previously identified centromere proteins CENP-A, CENP-B, CENP-C and CENP-D.

Identification of novel centromere/kinetochore-associated proteins using monoclonal antibodies generated against human mitotic chromosome scaffolds.

We describe the generation of 11 monoclonal antibodies that bind to the centromere/kinetochore region of human mitotic chromosomes. These antibodies were raised against mitotic chromosome scaffolds and screened for centromere/kinetochore binding by indirect immunofluorescence against purified chromosomes. Immunoblot analyses with these antibodies revealed that all of the antigens are greater than 200 kD and are components of nuclei, chromosomes, and/or chromosome scaffolds.

Ability of the c-mos product to associate with and phosphorylate tubulin.

The mos proto-oncogene product, pp39mos, is a protein kinase and has been equated with cytostatic factor (CSF), an activity in unfertilized eggs that is thought to be responsible for the arrest of meiosis at metaphase II. The biochemical properties and potential substrates of pp39mos were examined in unfertilized eggs and in transformed cells in order to study how the protein functions both as CSF and in transformation. The pp39mos protein associated with polymers under conditions that favor tubulin oligomerization and was present in an approximately 500-kilodalton "core" complex under conditions that favor depolymerization.

Involvement of neurofilaments in the radial growth of axons.

The control of radial growth of axons is of functional importance because caliber is a principal determinant of conduction velocity in myelinated nerve fibers. Neurofilaments, the major cytoskeletal protein in myelinated nerves, appear to be intrinsic determinants of caliber. Evidence supporting this derives first from the linear relationship between neurofilament content and axonal diameter.

Assembly properties of dominant and recessive mutations in the small mouse neurofilament (NF-L) subunit.

We have generated a set of amino- and carboxy-terminal deletions of the NF-L neurofilament gene and determined the assembly properties of the encoded subunits after coexpression with vimentin or wild-type NF-L. NF-L molecules missing greater than 30% (31 amino acids of the head) or 90% (128 amino acids of the tail) failed to incorporate into intermediate filament networks. Carboxy-terminal deletions into the rod domain yield dominant mutants that disrupt arrays assembled from wild-type subunits, even when present at levels of approximately 2% of the wild-type subunits.

Characterization of dominant and recessive assembly-defective mutations in mouse neurofilament NF-M.

We have generated a set of amino- and carboxy-terminal deletions of the neurofilament NF-M gene and determined the molecular consequences of forced expression of these mutant constructs in mouse fibroblasts. To follow the expression of mutant NF-M subunits in transfected cells, a 12 amino acid epitope (from the human c-myc protein) was expressed at the carboxy terminus of each mutant. We show that NF-M molecules missing up to 90 or 70% of the nonhelical carboxy-terminal tail or amino-terminal head domains, respectively, incorporate readily into an intermediate filament network comprised either of vimentin or NF-L, whereas deletions into either the amino- or carboxy-terminal alpha-helical rod region generate assembly-incompetent polypeptides.