Marie-Madeleine Portier

Mice lacking vimentin develop and reproduce without an obvious phenotype

To address the biological role of vimentin in the context of the living organism, we have introduced a null mutation of the vimentin gene into the germ line of mice. Surprisingly, animals homozygous for this mutation developed and reproduced without an obvious phenotype. Immunoblotting, immunofluorescence, and immunogold labeling analysis confirmed the absence of vimentin and of the corresponding filament network. Furthermore, no compensatory expression of another intermediate filament could be demonstrated. While these results leave open the question of the possible role of vimentin in unusual situations or pathological conditions, they show that a conspicuous developmental and cell-specific structure that is an integral part of the cytoskeleton can be eliminated without apparent effect on mouse reproduction and development.

Peripherin, a New Member of the Intermediate Filament Protein Family

Peripherin, a Triton-insoluble protein, whose distribution was found to be restricted to neurons in the rodent and human peripheral nervous system, was characterized by its electrophoretic features (isoelectric point: 5.6; molecular weight: 56,000 daltons) and by its peptidic map after limited proteolysis. Comparative peptide analysis of the 70,000-dalton subunit of neurofilaments (70K NFP), vimentin and peripherin, was performed by two different methods; limited proteolysis with Staphylococcus aureus V8 protease yields a different peptidic map for each protein; treatment with N-chlorosuccinimide, which cleaves preferentially at tryptophan residues, yields only two peptides from each protein: the size of the two fragments indicates that these proteins possess a single tryptophan residue located in the central part of the molecule. A rabbit antiserum raised against mouse peripherin decorated an intracellular filamentous network in mouse neuroblastoma NIE 115 cell line. The IgG fraction of the antiserum recognizes peripherin and the smallest subunit of the neurofilament triplet (70K NFP)--but not vimentin--whereas a monoclonal anti-70K NFP recognizes only the 70K NFP. Moreover, peripherin displays the common antigenic determinant shared by all intermediate filament proteins. Hence, we propose that peripherin represents a new member of the intermediate filament protein family, and might belong to the neurofilament class.

Multiple mRNAs encode peripherin, a neuronal intermediate filament protein.

Three cDNA clones of 1.6 (3u), 1.2 (5g) and 0.6 (5b) kbp, specific for peripherin, a neuronal intermediate filament protein (IFP), have been isolated from a murine neuroblastoma cell lambda gt11 library by immunoscreening using peripherin antiserum. Antibodies eluted from the fusion proteins produced by clones 3u and 5g recognize the peripherin spots on immunoblots. Where they overlap the three cDNAs have identical sequences. cDNA 5g exhibits the closest homology to type III IFP cDNAs. cDNA 3u is identical to the corresponding region of cDNA 5g, except for the insertion of a 96 bp fragment at a position corresponding to the junction of exons 4 and 5 in type III IFP cDNAs. cDNA 5b is also identical to the corresponding region of cDNA 5g, except for the deletion of a 62 bp fragment at the junction of exons 8 and 9 in type III IFP cDNAs. S1 mapping experiments performed with probes covering the 3′ end of the two unexpected regions show that three distinct mRNAs correspond to the three cDNAs. Moreover, three peripherin products, two minor 61 and 56 kd products in addition to the major 58 kd peripherin, are observed when poly(A)+ RNA is in vitro translated, the 61 kd peripherin being translated from the 3u‐selected RNA. The three RNAs originate from alternative splicing of a unique peripherin gene, thus generating polymorphism of peripherin.

Neuronal intermediate filaments in rat dorsal root ganglia: differential distribution of peripherin and neurofilament protein immunoreactivity and effect of capsaicin.

Two major neuronal populations were revealed in rat dorsal root ganglia, immunoreactive for either peripherin, or neurofilament triplet proteins (adult L2 ganglia: 66.2% and 25.6%, mainly small and large diameter cells, respectively), together with a minor, double-immunostained population (L2: 8.1%, mainly intermediate-size neurons). After capsaicin treatment, a striking expansion in the latter population was seen (L2: 22.0%) together with a significant increase in size, restricted to the same population and the (remaining) peripherin-only immunoreactive neurons. Calcitonin gene-related peptide (CGRP) immunoreactivity was revealed in neurons of all 3 groups, in both normal and capsaicin-treated rats.

Regulation of Peripherin in Mouse Neuroblastoma and Rat PC 12 Pheochromocytoma Cell Lines

Peripherin (Formerly the Y protein) is found in the peripheral nervous system. This Triton-insoluble protein is characterized by its isoelectric point (5.6), its apparent molecular weight (56,000 daltons) and its peptide map. Peripherin was also observed in a mouse neuroblastoma cell line, NIE 115, where its expression appeared regulated by the presence of an inducer of morphological differentiation. In order to analyze more precisely this control, the presence of peripherin was investigated in several neuroblastoma cell lines which exhibit different morphological patterns of differentiation and in the rat pheochromocytoma PC 12 cell line. Differentiation of these cells was induced with 1-methylcyclohexane carboxylic acid (CCA) and nerve growth factor (NGF), respectively. Peripherin was found in these different cell lines. Moreover, the cellular amount of peripherin appraised by [35S]-methionine incorporation was significatively increased in differentiated cells. In contrast, other cytoskeletal components did not undergo a similar raise. The level at which the control of the peripherin content takes place was studied in a cell-free translation system. Poly(A)-rich RNAs extracted from growing or differentiated NIE 115 cells directed the synthesis of similar amounts of peripherin in a reticulocyte lysate. In contrast, polysomes prepared from differentiated cells and the corresponding polysomal RNA programmed in vitro the synthesis of twice more peripherin than polysomes or polysomal RNA from growth-phase cells. Since peripherin synthesis is enhanced 5 times in living cells, it seems probable that the cellular amount of peripherin is controlled partly at the translational level and partly at the turn-over level.

Vimentin gene: expression in human lymphocytes and in Burkitt's lymphoma cells.

We have isolated a human genomic clone for the intermediate filament subunit vimentin with a DNA probe encoding chicken vimentin. We show that the gene for this protein exists as a single copy in the haploid human genome and is transcribed into one mature RNA species of 2 kb. In vitro translation of poly(A)+ mRNA in a rabbit reticulocyte cell‐free system showed that vimentin is a major product of RNA from normal lymphocytes but not of RNA extracted from Burkitt cells. 2‐kb vimentin mRNA can be detected with a DNA probe in normal lymphocytes and in fibroblasts, but not in cell lines derived from Burkitts lymphoma (JI, JBL2, BJAB, DAUDI). The abundance of vimentin mRNA is correlated with the quantity of vimentin present in the cells, suggesting that the level of expression is regulated by the abundance of mRNA. The half‐lives of vimentin mRNA were found identical in both fibroblasts and lymphocytes and belong to the class of stable mRNA.

Origin of the beta cells of the islets of Langerhans is further questioned by the expression of neuronal intermediate filament proteins, peripherin and NF-L, in the rat insulinoma RIN5F cell line

Intermediate filament proteins of the rat insulinoma RIN5F cell line were characterized. Two-dimensional gel analysis followed by immunostaining of proteins demonstrated that these cells express both peripherin and the low-molecular-mass neurofilament protein (NF-L); this was confirmed for peripherin by immunohistochemistry, peptide analysis and Northern blot. No expression of these proteins could be detected with these same methods either in the adult pancreas or in the tumor at the origin of the cell line, although such expression was apparent on sections of rat pancreas at embryonal day 16. These results were compared to those obtained on the rat pheochromocytoma PC12 cell line: expression in the adrenal medulla of the embryo, no expression either in the adult tissue or in the tumor, but solely in the derived cell line. The expression of neuronal intermediate filament proteins in the rat insulinoma RIN5F cell line is discussed in relation to its similarity in the rat pheochromocytoma PC12 cell line, and its meaning as to the developmental cell lineage; an ectodermal origin is suggested for the pancreatic islet cells.

Phosphorylation of peripherin, an intermediate filament protein, in mouse neuroblastoma nie 115 cell line and in sympathetic neurons

Peripherin, an intermediate filament protein, described recently, is expressed in well defined neuronal populations. We studied the phosphorylation, in vivo, of this protein in mouse neuroblastoma NIE 115 cell line and in sympathetic neurons labelled with [32P]-orthophosphate. The autoradiograms of proteins separated on two-dimensional polyacrylamide gels were compared with the Coomassie-blue stainings. The results show that peripherin occurs as a mixture of phosphorylated and non-phosphorylated isoforms, and that these forms coexist in both differentiated and non-differentiated cells. We demonstrate by cleavage at the unique tryptophan residue, a characteristic shared by most other intermediate filament proteins (IFP), that the phosphorylation sites are located on the amino-terminal half of peripherin as it is for vimentin and desmin. These results are discussed in relation to the organization of the filamentous network constituted by peripherin.

Changes in some cytoskeletal proteins during neuroblastoma cell differentiation.

After in vitro microtubule assembly of mouse neuroblastoma crude extracts, six protein species migrate in the tubulin region of two-dimensional electrophoregrams. The evolution of these forms after morphological cell differentiation of the clone NIE115 shows two major modifications. Form 5 decreased drastically while form 6 increases during neurite formation. Peptide mapping analysis reveals that forms 5 and 6 are vimentin, a component of intermediate filaments, and beta-tubulin subunit, respectively. Sodium butyrate treatment of NIE115 cells or serum starvation of NIA103 cells, conditions blocking cell division and failing to induce morphological differentiation, prevent any modifications in the relative proportion of these proteins. It is concluded that the changes in the distribution of the tubulin isoforms and vimentin are directly related to neurite formation.

Structure of the mouse gene encoding peripherin: a neuronal intermediate filament protein

Summary— The gene encoding mouse peripherin, a neuronal intermediate filament protein, has been cloned. Its sequence, through 1021 nucleotides composing the 5′‐flanking region, nine exons, eight introns and 547 nucleotides of the 3′‐flanking region, as well as its transcription initiation site have been determined. The amino acid coding sequence differs from that of the rat peripherin gene. The mouse gene has an additional histidine near the N‐terminal end, and shows three conservative and two non‐conservation changes. The promoter sequence, containing the binding sites for transcription factors as well as other sequences is homologous to promoter regions of other type III intermediate filament protein genes and other neuronal‐specific genes.