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1. Survival, Integration, and Axon Growth Support of Glia Transplanted into the Chronically Contused Spinal Cord

Author

Barakat, D. J., Gaglani, S. M., Neravetla, S. R., Sanchez, A. R., Andrade, C. M., Pressman, Y., Puzis, R., Garg, M. S., Bunge, M. B., and Pearse, Damien Daniel

Abstract

Due to an ever-growing population of individuals with chronic spinal cord injury, there is a need for experimental models to translate efficacious regenerative and reparative acute therapies to chronic injury application. The present study assessed the ability of fluid grafts of either Schwann cells (SCs) or olfactory ensheathing glia (OEG) to facilitate the growth of supraspinal and afferent axons and promote restitution of hind limb function after transplantation into a 2-month-old, moderate, thoracic (T8) contusion in the rat. The use of cultured glial cells, transduced with lentiviral vectors encoding enhanced green fluorescent protein (EGFP), permitted long-term tracking of the cells following spinal cord transplantation to examine their survival, migration, and axonal association. At 3 months following grafting of 2 million SCs or OEG in 6 μl of DMEM/F12 medium into the injury site, stereological quantification of the three-dimensional reconstructed spinal cords revealed that an average of 17.1 ± 6.8% of the SCs and 2.3 ± 1.4% of the OEG survived from the number transplanted. In the OEG grafted spinal cord, a limited number of glia were unable to prevent central cavitation and were found in patches around the cavity rim. The transplanted SCs, however, formed a substantive graft within the injury site capable of supporting the ingrowth of numerous, densely packed neurofilament-positive axons. The SC grafts were able to support growth of both ascending calcitonin gene-related peptide (CGRP)-positive and supraspinal serotonergic axons and, although no biotinylated dextran amine (BDA)-traced corticospinal axons were present within the center of the grafts, the SC transplants significantly increased corticospinal axon numbers immediately rostral to the injury–graft site compared with injury-only controls. Moreover, SC grafted animals demonstrated modest, though significant, improvements in open field locomotion and exhibited less foot position errors (base of support and foot rotation). Whereas these results demonstrate that SC grafts survive, support axon growth, and can improve functional outcome after chronic contusive spinal cord injury, further development of OEG grafting procedures in this model and putative combination strategies with SC grafts need to be further explored to produce substantial improvements in axon growth and function.

Published
2005
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5. Induction of mature neuronal properties in immortalized neuronal precursor cells following grafting into the neonatal CNS

Author

Shihabuddin, L., Brunschwig, J., Holets, V., Bunge, M., and Whittemore, S.

Abstract

Summary: RN33B, a conditionally-immortalized neuronal cell line, survives and differentiates following grafting into the neocortex and hippocampus of adult and neonatal rat hosts. We have previously shown that these cells assume shapes characteristic of endogenous neurons at the integration site and persist up to 24 weeks post-grafting. In the present study we use electron microscopy and immunohistochemistry to characterize such cells. Differentiated RN33B cells were identical in size to endogenous neurons and their sizes depended on the specific location of integration. RN33B cells in the granule cell layer of the dentate gyrus and CA3 and CA1 pyramidal layers were 9.0, 15.3, and 12.6 mgrm in diameter, respectively. Grafted RN33B cells received synapses from fibres of host origin. Differentiated cells expressed neuronal markers, but not glial markers. Some differentiated cells expressed glutamate bothin vitro andin vivo whereas undifferentiated cells did not. Grafted RN33B cells that differentiated with morphologies similar to CA3 pyramidal neurons and pyramidal cortical neurons expressed Py antigen, a neuronal marker that is differentially expressed in endogenous large pyramidal neurons of the cerebral cortex and large pyramids of hippocampal field CA3. This Py immunoreactivity was region-specific and corresponded to the endogenous pattern of Py immunostaining. Collectively, these data indicate that RN33B cells are capable of region-specific differentiation and have the potential to integrate functionally into the host CNS.

Published
1996
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6. Regrowth of axons in lesioned adult rat spinal cord: promotion by implants of cultured Schwann cells

Author

Paíno, C. L., Fernandez-Valle, C., Bates, M. L., and Bunge, M. B.

Abstract

Summary Highly purified populations of Schwann cells were grafted into lesioned adult rat spinal cord to determine if they promote axonal regeneration. Dorsal spinal cord lesions were created by a photochemical lesioning technique. Schwann cells derived from E16 rat dorsal root ganglia, either elongated and associated with their extracellular matrix or dissociated and without matrix, were rolled in polymerized collagen to form an implant 4–6 mm long which was grafted at 5 or 28 days after lesioning. No immunosuppression was used. Acellular collagen rolls served as controls. At 14, 28 and 90 days and 4 and 6 months after grafting, animals were analysed histologically with silver and Toluidine Blue stains and EM. The grafts often filled the lesion and the host borders they apposed exhibited only limited astrogliosis. By 14 days, bundles of unmyelinated and occasional thinly myelinated axons populated the periphery of Schwann cell implants. By 28 days and thereafter, numerous unmyelinated and myelinated axons were present in most grafts. Silver staining revealed sprouted axons at the implant border at 28 days and long bundles of axons within the implant at 90 days. Photographs of entire 1 µm plastic cross-sections of nine grafted areas were assembled into montages to count the number of myelinated axons at the graft midpoint; the number of myelinated axons ranged from 517–3214. Electron microscopy of implants showed typical Schwann cell ensheathment and myelination, increased myelin thickness by 90 days, and a preponderance of unmyelinated over myelinated axons. Random EM sampling of five Schwann cell grafts snowed that the ratio of unmyelinated to myelinated axons was highest (20:1) at 28 days. These ratios implied that axons numbered in the thousands at the graft midpoint. Dissociated Schwann cells without matrix promoted axonal ingrowth and longitudinal orientation as effectively as did elongated Schwann cells accompanied by matrix. There was a suggestion that axonal ingrowth was at least as successful, if not more so, when the delay between lesioning and grafting was 28 rather than 5 days. Acellular collagen grafts did not contain axons at 28 days, the only interval assessed. In sum, grafts of Schwann cells in a rolled collagen layer filled the lesion and were well tolerated by the host. The Schwann cells stimulated rapid and abundant growth of axons into grafts and they ensheathed and myelinated these axons in the normal manner.

Published
1994
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7. Fibroblasts are required for Schwann cell basal lamina deposition and ensheathment of unmyelinated sympathetic neurites in culture

Author

Obremski, V. J., Johnson, M. I., and Bunge, M. B.

Abstract

Summary The ability to purify and recombine populations of peripheral neurons, Schwann cells and fibroblasts in tissue culture has enabled us to examine the contribution of fibroblasts to Schwann cell basal lamina assembly and ensheathment of unmyelinated rat superior cervical ganglion neuritesin vitro. Purified perinatal superior cervical ganglion neurons were grown in culture either with Schwann cells or with Schwann cells plus fibroblasts derived from either superior cervical ganglion capsule or cranial periosteum. The cultures were maintained for 2–8 weeks on a collagen substratum in a medium known to promote Schwann cell differentiation (myelin, basal lamina formation) in the presence of dorsal root ganglion neurons. The extent of Schwann cell differentiation (ensheathment, basal lamina formation) in the presence of superior cervical ganglion neurons was evaluated in this study using electron microscopy. In superior cervical ganglion neuron plus Schwann cell cultures (without fibroblasts), Schwann cells achieved only a moderate degree of ensheathment; also, Schwann cell basal lamina was discontinuous and extracellular collagen fibrils were sparse. Although only discontinuous basal lamina was demonstrable by electron microscopy in these cultures, surprisingly, Schwann cell/neurite fascicles were uniformly immunostained for laminin, type IV collagen, and heparan sulfate proteoglycan. The addition of fibroblasts to superior cervical ganglion neuron plus Schwann cell cultures increased the deposition of basal lamina around the Schwann cell/neurite units, the number of collagen fibrils, and the extent of neurite ensheathment. We propose that the presence of basal lamina increases the Schwann cell's ability to ensheathe superior cervical ganglion neurites, possibly through an augmentation of specific extracellular matrix components or by increasing in some way the capacity of these components to become organized into basal lamina. We conclude that, unlike dorsal root ganglion neurons, superior cervical ganglion neurons are unable to stimulate full Schwann cell extracellular matrix expression with the result that these Schwann cells require the extraneuronal influence of fibroblasts to deposit basal lamina and attain their mature phenotype in culture.

Published
1993
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10. Cosheaves and distributions on toposes

Author

Bunge, M.

Abstract

Distributions on a Grothendieck topos were introduced by Lawvere [12] (cf. also [13]) as a generalization of the classical notion (cf. [20]) of real-valued distributions on a topological space. The cosheaves approach to distributions which is implicit in work of Pitts [19] is used here first, in order to answer affirmatively a question posed in [12] concerning the existence of the “symmetric topos” and next, in order to prove a structure theorem for categories of distributions on Grothendieck toposes that is similar in spirit to the Joyal-Tierney [11] structure theorem for Grothendieck toposes.

Published
1995
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11. Evidence that contact with connective tissue matrix is required for normal interaction between Schwann cells and nerve fibers.

Author

Bunge, R P and Bunge, M B

Abstract

Explants of fetal rat sensory ganglia, cultured under conditions allowing axon and Schwann cell outgrowth in the absence of fibroblasts, occasionally develop nerve fascicles that are partially suspended in culture medium above the collagen substrate. In these suspended regions, fascicles are abnormal in that Schwann cells are decreased in number, are confined to occasional clusters along the fascicle, provide ensheathment for only a few axons at the fascicle periphery, and do not form myelin. When these fascicles are presented with a substrate of reconstituted rat-tail collagen, Schwann cell numbers increase, ensheathment of small nerve fibers occurs normally, and larger axons are myelinated. We conclude that, for normal development, Schwann cells require contact with extracellular matrix as well as axons. The Schwann cell abnormalities in suspended fascicles are similar to those observed in nerve roots of dystrophic mice.

Published
1978
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12. Specific asparagine-linked oligosaccharides are not required for certain neuron-neuron and neuron-Schwann cell interactions.

Author

Ratner, N, Elbein, A, Bunge, M B, Porter, S, Bunge, R P, and Glaser, L

Abstract

To determine whether specific asparagine-linked (N-linked) oligosaccharides present in cell surface glycoproteins are required for cell-cell interactions within the peripheral nervous system, we have used castanospermine to inhibit maturation of N-linked sugars in cell cultures of neurons or neurons plus Schwann cells. Maximally 10-15% of the N-linked oligosaccharides on neuronal proteins have normal structure when cells are cultured in the presence of 250 micrograms/ml castanospermine; the remaining oligosaccharides are present as immature carbohydrate chains not normally found in these glycoproteins. Although cultures were treated for 2 wk with castanospermine, cells always remained viable and appeared healthy. We have analyzed several biological responses of embryonic dorsal root ganglion neurons, with or without added purified populations of Schwann cells, in the presence of castanospermine. We have observed that a normal complement of mature, N-linked sugars are not required for neurite outgrowth, neuron-Schwann cell adhesion, neuron-induced Schwann cell proliferation, or ensheathment of neurites by Schwann cells. Treatment of neuronal cultures with castanospermine increases the propensity of neurites to fasciculate. Extracellular matrix deposition by Schwann cells and myelination of neurons by Schwann cells are greatly diminished in the presence of castanospermine as assayed by electron microscopy and immunocytochemistry, suggesting that specific N-linked oligosaccharides are required for the expression of these cellular functions.

Published
1986
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13. Schwann cells proliferate but fail to differentiate in defined medium.

Author

Moya, F, Bunge, M B, and Bunge, R P

Abstract

Primary cultures of dorsal root ganglia cells from 18- to 21-day rodent embryos were studied for their ability to express Schwann cell function in a defined medium lacking serum and embryo extract. It was confirmed that Schwann cells, but not fibroblasts, are able to proliferate in response to contact with axons when cultured in this defined medium. We here report that in this medium, however, differentiation of Schwann cells was arrested before completion of ensheathment and before initiation of myelin formation. Electron microscopic analysis confirmed this ensheathment failure and showed that the extracellular matrix components (basal lamina and thin collagenous fibrils) normally produced by axon-related Schwann cells had not been formed. This absence of extracellular matrix, as well as the presence in the Schwann cell of an increased cytoplasmic granularity (observed in the light microscope) and numerous distended cisterns of rough endoplasmic reticulum, suggest a failure in Schwann cell secretion. However, within one week after addition of serum and embryo extract to the culture medium, the ensheathment failure was corrected and myelination occurred; electron microscopic observations showed the presence of basal lamina and collagen fibrils in association with Schwann cells. These results suggest the presence in serum or embryo extract (or both) of factors necessary for the full expression of Schwann cell function (although a similar requirement is not present for the expression of oligodendrocyte function in culture). We propose that these observations indicate a linkage between Schwann cell secretion and axonal ensheathment, including myelin formation.

Published
1980
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14. Expression of the protein zero myelin gene in axon-related Schwann cells is linked to basal lamina formation.

Author

Fernandez-Valle, C, Fregien, N, Wood, P M, and Bunge, M B

Abstract

A Schwann cell has the potential to differentiate into either a myelinating or ensheathing cell depending upon signals received from the axon that it contacts. Studies focusing on the pathway leading to myelination demonstrated that Schwann cells must form a basal lamina in order to myelinate an axon. In this report, we describe studies that indicate that initiation of basal lamina synthesis is required for Schwann cells to distinguish between myelination-inducing axons and axons that do not induce myelination, and to respond by undergoing the appropriate genetic and cellular changes. We have used high resolution in situ hybridization, immunocytochemistry and electron microscopy to examine changes in gene expression and morphology of Schwann cells differentiating into myelin-forming cells in vitro. These experiments were carried out in dorsal root ganglion neuron/Schwann cell co-cultures maintained in either serum-free, serum-only or serum-plus-ascorbate-containing medium. We have made four novel observations that contribute significantly to our understanding of how basal lamina and myelination are linked. (1) The addition of ascorbate (in the presence of serum), which promotes basal lamina production, appears to induce expression of the protein zero gene encoding the major structural protein of myelin. Moreover, expression of protein zero mRNA and protein, and its insertion into myelin membranes, occurs only in the subset of Schwann cells contacting myelination-inducing axons. Schwann cells in contact with axons that do not induce myelination, or Schwann cells that have not established a unitary relationship with an axon, do not express protein zero mRNA although they produce basal lamina components. (2) In serum-free conditions, a majority of Schwann cells express protein zero mRNA and protein, but this change in gene expression is not associated with basal lamina formation or with elongation of the Schwann cell along the axon and elaboration of myelin. (3) In the presence of serum (and the absence of ascorbate), Schwann cells again fail to form basal lamina or elongate but no longer express protein zero mRNA or protein. (4) Myelin-associated glycoprotein and galactocerebroside, two additional myelin-specific components, can be expressed by Schwann cells under any of the three culture conditions. Therefore, we have demonstrated that axonal induction of protein zero gene expression in Schwann cells is subject to regulation by both serum- and ascorbate-dependent pathways and that not all myelin-specific proteins are regulated in the same manner.(ABSTRACT TRUNCATED AT 400 WORDS)

Published
1993

17. Real successive measurements on unstable quantum systems take nonvanishing time intervals and do not prevent them from decaying

Author

Bunge, M. and Kálnay, A. J.

Abstract

An alarming result has been derived in the theory of unstable systems by considering a sequence of instantaneous observations. According to it, continued observation prevents decay. We show that this paradox is avoided if the fiction of the instantaneous observation is replaced with the realistic hypothesis that a measurement (hence the corresponding reduction of the wave packet) takes a nonvanishing time interval. We derive the corresponding formulae, first for a single measurement on a single unstable system, then for a sequence of measurements. Actually the results hold not only for measurements, but for interactions of all kinds. The upshot is that the lifetime of an unstable system, while depending on its interactions with a second system, cannot be prolonged arbitrarily by mere continued observation. And in any event such a life span is an objective property of the system under investigation.

Published
1983
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18. Solution to two paradoxes in the quantum theory of unstable systems

Author

Bunge, M. and Kálnay, A. J.

Abstract

Two apparent paradoxes in the quantum theory of unstable systems are discussed and dissolved. According to one of them all decay processes, regardless of their mechanism, would be exponential under certain very general assumptions. Acoording to the other an unstable system will never decay, provided it is kept under constant observation. The paradoxes are shown to derive from the tacit classical assumption that every unstable thing is always either in the undecayed or in the decayed state. They do not occur as long as the superposition principle is taken seriously and the system is conceived as being normally in a superposition of sharp states. Moreover, the decay is shown to be a continuous process that unfolds regardless of the observations to which the decay products may be subjected.

Published
1983
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20. Comparison of nerve cell and nerve cell plus Schwann cell cultures, with particular emphasis on basal lamina and collagen formation.

Author

Bunge, M B, Williams, A K, Wood, P M, Uitto, J, and Jeffrey, J J

Abstract

The availability of cultures of normal cells (NCs) and Schwann cells (SCs) with and without fibroblasts has allowed us to investigate the sources of endoneurial and perineurial constituents of peripheral nerve. NCs cultured alone, devoid of ensheathment but healthy in appearance, lack basal lamina and extracellular fibrils. In contrast, when SCs accompany NCs, basal lamina and extracellular fibrils are consistently visible around SCs in outgrowth areas formed de novo in culture. These fibrils average 18 nm in diameter, exhibit a repeating banding pattern, and are trypsin-resistant and collagenase-sensitive. Collagen synthesis is also indicated by the incorporation of [14C]proline into peptide-bound hydroxy-proline in NC + SC or SC cultures. That the [14C]hydroxyproline polypeptides formed in NC + SC cultures are collagenous was determined in part by pepsin digestion-ammonium sulfate precipitation-polyacrylamide gel electrophoresis techniques; the 14C-polypeptides migrate to the positions of alpha 1 (I), alpha 2, alpha 1 (III), and alpha B chains of type I, type III, and A-B collagens. Also formed are thin, ruthenium red-preserved strands interconnecting basal laminae. SC ensheathment of axons is similar to that found in the animal; one SC is related to a number of unmyelinated axons or a single myelinated axon. This proclivity to ensheathe and myelinate axons indicates that SC function is not lost during the preparative procedures or after lengthy isolation in culture and provides the most reliable means for SC identification. Perineurial ensheathment and macrophages are lacking in NC + SC culture preparations divested of fibroblasts. We conclude that SCs do not form perineurium or the larger diameter collagen fibrils typical of endoneurium but that in combination with neurons they generate biochemically detectable collagens and morphologically visible basal lamina and thin collagenous fibrils.

Published
1980
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21. Morphological changes in the neuritic growth cone and target neuron during synaptic junction development in culture.

Author

Rees, R P, Bunge, M B, and Bunge, R P

Abstract

Our object was to characterize the morphological changes occurring in pre- and postsynaptic elements during their initial contact and subsequent maturation into typical synaptic profiles. Neurons from superior cervical ganglia (SCG) of perinatal rats were freed of their supporting cells and established as isolated cells in culture. To these were added explants of embryonic rat thoracic spinal cord to allow interaction between outgrowing cord neurites and the isolated autonomic neurons. Time of initial contact was assessed by light microscopy; at timed intervals thereafter, cultures were fixed for electron microscopy. Upon contact, growth cone filopodia became extensively applied to the SCG neuronal plasmalemma and manifested numerous punctate regions in which the apposing plasma membranes were separated by only 7-10 nm. The Golgi apparatus of the target neuron hypertrophied, and its production of coated vesicles increased. Similar vesicles were seen in continuity with the SCG plasmalemma near the close contact site; their apparent contribution of a region of postsynaptic membrane with undercoating was considered to be the first definitive sign of synapse formation. Tracer work with peroxidase and ferritin confirmed that the traffic of coated vesicles within the neuronal soma is largely from Golgi region to somal surface. Subsequent to the appearance of postsynaptic density, the form and content of the growth cone was altered by the loss of filopodia and the appearance of synaptic vesicles which gradually became clustered opposite the postsynaptic density. As the synapse matured, synaptic vesicles increased in number, cleft width and content increased, presynaptic density appeared, branched membranous reticulum became greatly diminished, and most lysosomal structures disappeared. Coated vesicles continued to be associated with the postsynaptic membrane at all stages of maturation. The incorporation of Golgi-derived vesicles into discrete regions of the cell membrane could provide the mechanism for confining specific characteristics of the neuronal membrane to the synaptic region.

Published
1976
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22. Differentiation of axon-related Schwann cells in vitro. I. Ascorbic acid regulates basal lamina assembly and myelin formation.

Author

Eldridge, C F, Bunge, M B, Bunge, R P, and Wood, P M

Abstract

Rat Schwann cells cultured with dorsal root ganglion neurons in a serum-free defined medium fail to ensheathe or myelinate axons or assemble basal laminae. Replacement of defined medium with medium that contains human placental serum (HPS) and chick embryo extract (EE) results in both basal lamina and myelin formation. In the present study, the individual effects of HPS and EE on basal lamina assembly and on myelin formation by Schwann cells cultured with neurons have been examined. Some batches of HPS were unable to promote myelin formation in the absence of EE, as assessed by quantitative evaluation of cultures stained with Sudan black; such HPS also failed to promote basal lamina assembly, as assessed by immunofluorescence using antibodies against laminin, type IV collagen, and heparan sulfate proteoglycan. The addition of EE or L-ascorbic acid with such HPS led to the formation of large quantities of myelin and to the assembly of basal laminae. Pretreatment of EE with ascorbic acid oxidase abolished the EE activity, whereas trypsin did not. Other batches of HPS were found to promote both basal lamina and myelin formation in the absence of either EE or ascorbic acid. Ascorbic acid oxidase treatment or dialysis of these batches of HPS abolished their ability to promote Schwann cell differentiation, whereas the subsequent addition of ascorbic acid restored that ability. Ascorbic acid in the absence of serum was relatively ineffective in promoting either basal lamina or myelin formation. Fetal bovine serum was as effective as HPS in allowing ascorbic acid (and several analogs but not other reducing agents) to manifest its ability to promote Schwann cell differentiation. We suggest that ascorbic acid promotes Schwann cell myelin formation by enabling the Schwann cell to assemble a basal lamina, which is required for complete differentiation.

Published
1987
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23. Movements of the Schwann cell nucleus implicate progression of the inner (axon-related) Schwann cell process during myelination.

Author

Bunge, R P, Bunge, M B, and Bates, M

Abstract

Although it has been known for several decades that peripheral myelin is formed from an extended, spiraled, and compacted sheet of Schwann cell (SC) plasma membrane, the mechanism by which this unique spiraling is accomplished remains unknown. We have studied the movements of SC nuclei before, during, and subsequent to myelin formation (over periods of 24-72 h) to determine if this nuclear motion (noted in earlier reports) would provide useful insights into the mechanism of myelinogenesis. We used rodent sensory neuron and SC cultures in which initiation of myelinogenesis is relatively synchronized and bright field conditions that allowed resolution of the axon, compact myelin, and position of the SC nucleus. Observed areas were subsequently examined by electron microscopy (EM); eight myelinating SCs with known nuclear movement history were subjected to detailed EM analysis. We observed that, prefatory to myelination, SCs extended along the length of larger axons, apparently competing with adjacent SCs for axonal surface contact. This lengthening preceded the deposition of compact myelin. SC nuclear circumnavigation of the axon was found to attend early myelin sheath formation. This movement was rarely greater than 0.25 turns per 3 h; on the average, more nuclear motion was seen in relation to internodes that formed during observation (0.8 +/- 0.1 turns/24 h) than in relation to those that had begun to form before observation (0.3 +/- 0.1 turns/24 h). Nuclear circumnavigation generally proceeded in one direction, could be in similar or opposite direction in neighboring myelinating SCs on the same axon, and was not proportional to the number of major dense lines within the myelin sheath. A critical finding was that, in all eight cases examined, the overall direction of nuclear movement was the same as that of the inner end of the spiraling SC process, and thus opposite the direction of the outer end of the spiral. We conclude that the correspondence of the direction of nuclear rotation and inner end of the spiraling cytoplasmic lip implicates active progression of the inner lip over the axonal surface to form the membranous spiral of myelin, the nuclear motion resulting from towing by the advancing adaxonal lip. This interpretation fits with finding basal lamina and macular adhering junctions associated with the external lip of SC cytoplasm; these attributes would imply anchorage rather than movement of this region of the SC.

Published
1989
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24. A picture of the electron

Author

Bunge, M.

Abstract

It is shown that, without performing a Foldy-Wouthuysen transformation, a position operator with a smooth motion can be defined for Dirac’s electron. This mean-position operator may be interpreted as the center-of-mass operator. It is further shown that the vector product of the new mean-position operator by the kinetic momentum yields a tensor of mean-angular momentum, the 6 components of which are constants of the motion of the free electron. The equation of motion of the mean-angular momentum in the presence of an external field is shown to be the analogue of the classical torque equation. It is suggested that these results may be interpreted as showing that, while the electron’s charge is concentrated at pointx, the electron’s mass is spread over a region of dimensions of a Compton wave-length, this volume being the seat of well-known microcurrents associated with the intrinsic magnetic and electric moment. The advantages of this mixed picture of the electron over the point-particle model and over the extended-source model are finally discussed. Si dimostra che senza eseguire una trasformazione di Foldy-Wouthuysen è possibile definire per l’elettrone di Dirac un operatore di posizione animato di moto non oscillatorio. Questo operatore di posizione media può essere interpretato come l’operatore del centro di massa. Si dimostra inoltre che il vettore prodotto del nuovo operatore di posizione media per il momento cinetico fornisce un tensore di momento angolare medio, le cui 6 componenti sono costanti del moto dell’elettrone libero. L’equazione del moto del momento angolare medio in presenza di un campo esterno si dimostra essere analoga all’espressione classica della coppia. Questi risultati si possono interpretare come favorevoli all’ipotesi che, mentre la carcia dell’elettrone è concentrata nel puntox, la massa dell’elettrone è ripartita in una regione dalle dimensioni di una lunghezza d’onda Compton, il cui volume è sede di ben note microcorrenti associate coi momenti magnetico ed elettrico intrinseci. Si discutono finalmente i vantaggi di questa immagine mista dell’elettrone rispetto al modello della particella puntiforme e al modello della sorgente estesa.

Published
1955
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25. Photoperiod Response of Annual Wild CicerSpecies and Cultivated Chickpea on Phenology, Growth, and Yield Traits

Author

Sharma, Shivali and Upadhyaya, Hari D.

Abstract

Frequent utilization of wild Cicerspecies in chickpea (Cicer arietinumL.) improvement programs, as well as the regeneration of these wild species for efficient conservation in genebanks, is hindered due to photoperiod and/or temperature sensitivity (vernalization). In this study, the response to four extended photoperiod treatments (15, 18, 21, and 24 h) was compared with a control (12 h) for phenology and growth in terms of reduction in number of days to first flowering, as well as for yield‐related traits in cultivated chickpea and seven annual wild Cicerspecies. The study revealed that wild Cicerspecies required long photoperiods (varying from 15 to 18 h) for transition from the vegetative to reproductive phase. Optimum photoperiods also improved agronomic traits such as pod number and seed yield per plant. Of the photoperiods studied, 18 h was the most appropriate photoperiod treatment for both reducing the vegetative phase and for efficient regeneration in C. reticulatumLadiz. Fifteen hours was the most appropriate photoperiod in C. judaicumBoiss. and C. yamashitaeKitamura. Both 15 and 18 h were the most appropriate photoperiods in C. bijugumK.H. Rech. and C. pinnatifidumJaub. & Sp., depending on the objective (15 h for regeneration and 18 h for reducing vegetative phase). Cicer chorassanicum(Bunge) M. Pop. and C. cuneatumHochst. ex A. Rich. showed a weak response to all the extended photoperiod treatments. These results contribute to enhanced utilization of wild Cicerspecies for chickpea improvement through synchronization of flowering facilitating hybridization and for efficient regeneration by using species‐specific extended photoperiod treatments.

Published
2019
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27. Prenatal diagnosis of intrathoracic stomach (gastric herniation).

Author

Al-Assiri, Ali, Wiseman, N., and Bunge, M.

Subjects
PRENATAL diagnosis, INTESTINAL abnormalities, DIAPHRAGMATIC hernia, INTESTINAL ischemia, MARFAN syndrome, MAGNETIC resonance imaging
Abstract

Abstract: Intrathoracic stomach is a rare and serious congenital abnormality. The anomaly may be complicated by gastric volvulus and can lead to ischemic gastric infarction in the neonate. If diagnosed antenatally, neonatal management can be planned in advance so as to reduce morbidity. This anomaly must be differentiated from the more common congenital diaphragmatic hernia, as associated pulmonary hypoplasia is common in the latter and rare with gastric herniation. We report an infant born to a mother with Marfan''s syndrome with the antenatal diagnosis of intrathoracic stomach. The ultrasound and magnetic resonance imaging features of this congenital abnormality are described. A review of the literature would indicate that this is the first case report of gastric volvulus diagnosed in utero. [Copyright &y& Elsevier]

Published
2005
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30. Comparison of iNOS Inhibition by Antisense and Pharmacological Inhibitors after Spinal Cord Injury

Author

PEARSE, D. D., CHATZIPANTELI, K., MARCILLO, A. E., BUNGE, M. B., and DIETRICH, W. D.

Abstract

Inducible nitric oxide synthase (iNOS) is a key mediator of inflammation during pathological conditions. We examined, through the use of selective iNOS inhibitors, the role of iNOS in specific pathophysiological processes after spinal cord injury (SCI), including astrogliosis, blood-spinal cord barrier (BSCB) permeability, polymorphonuclear leukocyte infiltration, and neuronal cell death. Administration of iNOS antisense oligonucleotides (ASOs) (intraspinally at 3 h) or the pharmacological inhibitors, N-[3(Aminomethyl) benzyl] acetamidine (1400W) (i.v./i.p. 3 and 9 h) or aminoguanidine (i.p. at 3 and 9 h) after moderate contusive injury decreased the number of iNOS immunoreactive cells at the injury site by 65.6% (iNOS ASOs), 62.1% (1400W), or 59% (aminoguanidine) 24 h postinjury. iNOS activity was reduced 81.8% (iNOS ASOs), 56.7% (1400W), or 67.9% (aminoguanidine) at this time. All iNOS inhibitors reduced the degree of BSCB disruption (plasma leakage of rat immunoglobulins), with iNOS ASO inhibition being more effective (reduced by 58%). Neutrophil accumulation within the injury site was significantly reduced by iNOS ASOs and 1400W by 78.8% and 20.9%, respectively. Increased astrogliosis was diminished with iNOS ASOs but enhanced following aminoguanidine. Detection of necrotic and apoptotic neuronal cell death by propidium iodide and an FITC-conjugated Annexin V antibody showed that iNOS inhibition could significantly retard neuronal cell death rostral and caudal to the injury site. These novel findings indicate that acute inhibition of iNOS is beneficial in reducing several pathophysiological processes after SCI. Furthermore, we demonstrate that the antisense inhibition of iNOS is more efficacious than currently available pharmacological agents.

Published
2003
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31. Spontaneous Axonal Regeneration in Rodent Spinal Cord After Ischemic Injury

Author

VON EULER, M., JANSON, A. M., LARSEN, J. O., SEIGER, Å., FORNO, L., BUNGE, M. B., and SUNDSTRÖM, E.

Abstract

Here we present evidence for spontaneous and long-lasting regeneration of CNS axons after spinal cord lesions in adult rats. The length of 200 kD neurofilament (NF)-immunolabeled axons was estimated after photochemically induced ischemic spinal cord lesions using a stereological tool. The total length of all NF-immunolabeled axons within the lesion cavities was increased 6- to 10-fold at 5, 10, and 15 wk post-lesion compared with 1 wk post-surgery. In ultrastructural studies we found the putatively regenerating axons within the lesion to be associated either with oligodendrocytes or Schwann cells, while other fibers were unmyelinated. Immunohistochemistry demonstrated that some of the regenerated fibers were tyrosine hydroxylase- or serotonin-immunoreactive, indicating a central origin. These findings suggest that there is a considerable amount of spontaneous regeneration after spinal cord lesions in rodents and that the fibers remain several months after injury. The findings of tyrosine hydroxylase- and serotonin-immunoreactivity in the axons suggest that descending central fibers contribute to this endogenous repair of ischemic spinal cord injury.

Published
2002
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33. Biosynthesis of type IV collagen by cultured rat Schwann cells.

Author

Carey, D J, Eldridge, C F, Cornbrooks, C J, Timpl, R, and Bunge, R P

Abstract

We have obtained evidence that rat Schwann cells synthesize and secrete type IV procollagen. Metabolic labeling of primary cultures of Schwann cells plus neurons and analysis by SDS PAGE revealed the presence of a closely spaced pair of polypeptides in the medium of these cultures that (a) were susceptible to digestion by purified bacterial collagenase, (b) co-migrated with type IV procollagen secreted by rat parietal endoderm cells, and (c) were specifically immunoprecipitated by antibodies against mouse type IV collagen. Limited pepsin digestion of metabolically labeled medium or cell layers produced a pepsin-resistant fragment characteristic of pro-alpha 1(IV) chains. Removal of neuronal cell bodies from the cultures immediately before labeling did not reduce the amount of type IV procollagen detected in the medium. This indicated that Schwann cells, not neurons, were responsible for synthesis of type IV procollagen. We believe type IV procollagen is a major constituent of the Schwann-cell extracellular matrix based upon (a) its presence in a detergent-insoluble matrix preparation, (b) its presence in the cell layer of the cultures in a state in which it can be removed by brief treatment with bacterial collagenase or trypsin, and (c) positive immunofluorescence of Schwann cell-neuron cultures with anti-type-IV collagen antibodies. Secretion of type IV procollagen was substantially reduced when Schwann cells were maintained in the absence of neurons. This observation may account for the previously reported finding that Schwann cells assemble a basal lamina only when co-cultured with neurons (Bunge, M. B., A. K. Williams, and P. M. Wood, 1982, Dev. Biol., 92:449).

Published
1983
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34. Sources for Tolerance to Cold in CicerSpecies

Author

Singh, K. B., Malhotra, R. S., and Saxena, M. C.

Abstract

Cold tolerance is an important prerequisite for successful winter sowing of chickpea (Cicer arietinumL.). In the Mediterranean region, winter sowing will increase productivity compared with the same crop sown traditionally in the spring. In the search for germplasm possessing a higher level of tolerance to cold than the cultivated species, 137 lines of eight wild annual Cicerspecies were evaluated during the 1987‐1988 and 1988‐1989 seasons at the International Center for Agricultural Research in the Dry Areas (ICARDA), Syria. Both seasons were effective for screening chickpea against cold, as the susceptible indicator was killed by cold spells each year. Most of the lines of C. bijugumK.H. Rech., C. echinosperumP.H. Davis, and C. reticulatumLadiz. were tolerant to cold and had significantly higher levels of cold tolerance than the cultivated species. All lines of C. chorassanicum(Bunge) M. Popov, C. cuneatumHochst. ex Rich., and C. yamashitaeKitamura, and all but one line of C. judaicumBoiss., were susceptible. Lines of C. pinnatifidumJaub. & Spach showed both susceptible and tolerant reactions.

Published
1990
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