Your search keyword '"Peripherin"' showing total 916 results

1. Clinicopathologic evaluation of congenital idiopathic megaesophagus in a Gordon Setter puppy: a case report and development and application of peripherin immunohistochemistry for detection of ganglion cells.

Author

Becker, Cecilie B. and Jensen, Henrik E.

Subjects

ESOPHAGEAL achalasia, MUSCULAR atrophy, CLINICAL pathology, IMMUNOHISTOCHEMISTRY, GANGLIA, FOALS

Abstract

We examined a case of congenital idiopathic megaesophagus (CIM) in a 5-wk-old female Gordon Setter puppy by means of contrast radiography, autopsy, histopathology, and immunohistochemistry. Clinical and radiologic findings included weight stagnation and marked generalized esophageal dilation with ventral displacement of the heart and lungs. These findings were confirmed at autopsy, and segments of the thoracic esophagus were sampled for histopathology. On histopathology, diffuse esophageal muscular atrophy, mucosal erosions, mononuclear inflammation, and a marked reduction in the number of myenteric plexus structures and number of ganglion cells were present (aganglionosis). The latter was determined immunohistochemically using an anti-peripherin antibody as the primary reagent, which provides a strong tool for the histologic confirmation of CIM. The histologic findings share some similarities to lesions associated with megaesophagus in Friesian foals, as well as esophageal achalasia and Hirschsprung disease in humans. [ABSTRACT FROM AUTHOR]

Published

2024

2. The pathophysiological role of endoneurial inflammatory edema in early classical Guillain-Barré syndrome.

Author

Berciano, José

Subjects

*GUILLAIN-Barre syndrome, *MOTOR neuron diseases, *SPINAL nerves, *PERIPHERAL nervous system, *EDEMA

Abstract

The objective of this review was to analyze the pathophysiological role of endoneurial inflammatory edema in initial stages of classic Guillain-Barré syndrome (GBS), arbitrarily divided into very early GBS (= 4 days after symptom onset) and early GBS (= 10 days). Classic GBS, with variable degree of flaccid and areflexic tetraparesis, encompasses demyelinating and axonal forms. Initial autopsy studies in early GBS have demonstrated that endoneurial inflammatory edema of proximal nerve trunks, particularly spinal nerves, is the outstanding lesion. Variable permeability of the blood-nerve barrier dictates such lesion topography. In proximal nerve trunks possessing epi-perineurium, edema may increase the endoneurial fluid pressure causing ischemic changes. Critical analysis the first pathological description of the axonal form GBS shows a combination of axonal degeneration and demyelination in spinal roots, and pure Wallerian-like degeneration in peripheral nerve trunks. This case might be reclassified as demyelinating GBS with secondary axonal degeneration. Both in acute motor axonal neuropathy and acute motor-sensory axonal neuropathy, Wallerian-like degeneration of motor fibers predominates in the distal part of ventral spinal roots abutting the dura mater, another feature re-emphasizing the pathogenic relevance of this area. Electrophysiological and imaging studies also point to a predominant alteration at the spinal nerve level, which is a hotspot in any early GBS subtype. Serum biomarkers of axonal damage, including neurofilament light chain and peripherin, are increased in the great majority of patients with any early GBS subtype; endoneurial ischemia of proximal nerve trunks could contribute to such axonal damage. It is concluded that inflammatory edema of proximal nerve trunks is an essential pathogenic event in early GBS, which has a tangible impact for accurate approach to the disease. [ABSTRACT FROM AUTHOR]

Published

2024

3. Peripherin is a biomarker of axonal damage in peripheral nervous system disease.

Author

Keddie, Stephen, Smyth, Duncan, Keh, Ryan Y S, Chou, Michael K L, Grant, Donna, Surana, Sunaina, Heslegrave, Amanda, Zetterberg, Henrik, Wieske, Luuk, Michael, Milou, Eftimov, Filip, Bellanti, Roberto, Rinaldi, Simon, Hart, Melanie S, Petzold, Axel, and Lunn, Michael P

Subjects

*PERIPHERAL neuropathy, *MOTOR neurons, *CHRONIC inflammatory demyelinating polyradiculoneuropathy, *PERIPHERAL nervous system, *INTERMEDIATE filament proteins, *POLYNEUROPATHIES

Abstract

Valid, responsive blood biomarkers specific to peripheral nerve damage would improve management of peripheral nervous system (PNS) diseases. Neurofilament light chain (NfL) is sensitive for detecting axonal pathology but is not specific to PNS damage, as it is expressed throughout the PNS and CNS. Peripherin, another intermediate filament protein, is almost exclusively expressed in peripheral nerve axons. We postulated that peripherin would be a promising blood biomarker of PNS axonal damage. We demonstrated that peripherin is distributed in sciatic nerve, and to a lesser extent spinal cord tissue lysates, but not in brain or extra-neural tissues. In the spinal cord, anti-peripherin antibody bound only to the primary cells of the periphery (anterior horn cells, motor axons and primary afferent sensory axons). In vitro models of antibody-mediated axonal and demyelinating nerve injury showed marked elevation of peripherin levels only in axonal damage and only a minimal rise in demyelination. We developed an immunoassay using single molecule array technology for the detection of serum peripherin as a biomarker for PNS axonal damage. We examined longitudinal serum peripherin and NfL concentrations in individuals with Guillain-Barré syndrome (GBS, n = 45, 179 time points), chronic inflammatory demyelinating polyradiculoneuropathy (CIDP, n = 35, 70 time points), multiple sclerosis (n = 30), dementia (as non-inflammatory CNS controls, n = 30) and healthy individuals (n = 24). Peak peripherin levels were higher in GBS than all other groups (median 18.75 pg/ml versus < 6.98 pg/ml, P < 0.0001). Peak NfL was highest in GBS (median 220.8 pg/ml) and lowest in healthy controls (median 5.6 pg/ml), but NfL did not distinguish between CIDP (17.3 pg/ml), multiple sclerosis (21.5 pg/ml) and dementia (29.9 pg/ml). While peak NfL levels were higher with older age (rho = +0.39, P < 0.0001), peak peripherin levels did not vary with age. In GBS, local regression analysis of serial peripherin in the majority of individuals with three or more time points of data (16/25) displayed a rise-and-fall pattern with the highest value within the first week of initial assessment. Similar analysis of serial NfL concentrations showed a later peak at 16 days. Group analysis of serum peripherin and NfL levels in GBS and CIDP patients were not significantly associated with clinical data, but in some individuals with GBS, peripherin levels appeared to better reflect clinical outcome measure improvement. Serum peripherin is a promising new, dynamic and specific biomarker of acute PNS axonal damage. [ABSTRACT FROM AUTHOR]

Published

2023

4. Peripherin: A proposed biomarker of traumatic axonal injury triggered by mechanical force.

Author

Fang, Tong, Yue, Liang, Longlong, Zhu, Longda, Ma, Fang, Huang, Yehui, Lv, Yang, Li, and Yiwu, Zhou

Subjects

*BIOMARKERS, *BRAIN injuries, *CEREBROSPINAL fluid, *AXONS, *WOUNDS & injuries

Abstract

Traumatic axonal injury (TAI) is one of the most common pathological features of severe traumatic brain injury (TBI). Our previous study using proteomics suggested that peripherin (PRPH) should be a potential candidate as a biomarker for TAI diagnosis. This study is to further elucidate the role and association of PRPH with TAI. In the animal study, we performed immunohistochemistry, ELISA and morphological analysis to evaluate PRPH level and distribution following a severe impact. PRPH‐positive regions were widely distributed in the axonal tract throughout the whole brain. Axonal injuries with PRPH inclusion were observed post‐TBI. Besides, PRPH was significantly increased in both cerebral spinal fluid and plasma at the early phase post‐TBI. Colocalization analysis based on microscopy revealed that PRPH represents an immunohistological biomarker in the neuropathological diagnosis of TAI. Brain samples from patients with TBI were included to further test whether PRPH is feasible in the real practice of neuropathology. Immunohistochemistry of PRPH, NFH, APP and NFL on human brain tissues further confirmed PRPH as an immunohistological biomarker that could be applied in practice. Collectively, we conclude that PRPH mirrors the cytoskeleton injury of axons and could represent a neuropathological biomarker for TAI. [ABSTRACT FROM AUTHOR]

Published

2023

5. Motor Neuron Disease: Amyotrophic Lateral Sclerosis

Author

Sacks, Benjamin, Bashford, James, Wijesekera, Lokesh, Leigh, P. Nigel, Sreedharan, Jemeen, Pfaff, Donald W., editor, Volkow, Nora D., editor, and Rubenstein, John L., editor

Published

2022

6. A New Mouse Model of Giant Axonal Neuropathy with Overt Phenotypes and Neurodegeneration Driven by Neurofilament Disorganization.

Author

Nath, Banshi and Julien, Jean-Pierre

Abstract

Research on pathogenic mechanisms underlying giant axonal neuropathy (GAN), a disease caused by a deficiency of gigaxonin, has been hindered by the lack of appropriate animal models exhibiting substantial symptoms and large neurofilament (NF) swellings, a hallmark of the human disease. It is well established that intermediate filament (IF) proteins are substrates for gigaxonin-mediated degradation. However, it has remained unknown to what extent NF accumulations contribute to GAN pathogenesis. Here, we report the generation of a new mouse model of GAN that is based on crossing transgenic mice overexpressing peripherin (Prph) with mice knockout for Gan. The Gan2/2;TgPer mice developed early onset sensory-motor deficits along with IF accumulations made up of NF proteins and of Prph, causing swelling of spinal neurons at a young age. Abundant inclusion bodies composed of disorganized IFs were also detected in the brain of Gan2/2;TgPer mice. At 12months of age, the Gan2/2;TgPer mice exhibited cognitive deficits as well as severe sensory and motor defects. The disease was associated with neuroinflammation and substantial loss of cortical neurons and spinal neurons. Giant axons (-160 lm2) enlarged by disorganized IFs, a hallmark of GAN disease, were also detected in dorsal and ventral roots of the Gan2/2;TgPer mice. These results, obtained with both sexes, support the view that the disorganization of IFs can drive some neurodegenerative changes caused by gigaxonin deficiency. This new mouse model should be useful to investigate the pathogenic changes associated with GAN disease and for drug testing. [ABSTRACT FROM AUTHOR]

Published

2023

7. Role of the Intermediate Filament Protein Peripherin in Health and Disease.

Author

Romano, Roberta, Del Fiore, Victoria Stefania, and Bucci, Cecilia

Subjects

*INTERMEDIATE filament proteins, *PERIPHERAL nervous system, *CYTOPLASMIC filaments, *POST-translational modification, *AXONAL transport, *GENETIC regulation

Abstract

Intermediate filaments are the most heterogeneous class among cytoskeletal elements. While some of them have been well-characterized, little is known about peripherin. Peripherin is a class III intermediate filament protein with a specific expression in the peripheral nervous system. Epigenetic modifications are involved in this cell-type-specific expression. Peripherin has important roles in neurite outgrowth and stability, axonal transport, and axonal myelination. Moreover, peripherin interacts with proteins involved in vesicular trafficking, signal transduction, DNA/RNA processing, protein folding, and mitochondrial metabolism, suggesting a role in all these processes. This review collects information regarding peripherin gene regulation, post-translational modifications, and functions and its involvement in the onset of a number of diseases. [ABSTRACT FROM AUTHOR]

Published

2022

8. Clinicopathologic evaluation of congenital idiopathic megaesophagus in a Gordon Setter puppy:a case report and development and application of peripherin immunohistochemistry for detection of ganglion cells

Author

Becker, Cecilie B., Jensen, Henrik E., Becker, Cecilie B., and Jensen, Henrik E.

Abstract

We examined a case of congenital idiopathic megaesophagus (CIM) in a 5-wk-old female Gordon Setter puppy by means of contrast radiography, autopsy, histopathology, and immunohistochemistry. Clinical and radiologic findings included weight stagnation and marked generalized esophageal dilation with ventral displacement of the heart and lungs. These findings were confirmed at autopsy, and segments of the thoracic esophagus were sampled for histopathology. On histopathology, diffuse esophageal muscular atrophy, mucosal erosions, mononuclear inflammation, and a marked reduction in the number of myenteric plexus structures and number of ganglion cells were present (aganglionosis). The latter was determined immunohistochemically using an anti-peripherin antibody as the primary reagent, which provides a strong tool for the histologic confirmation of CIM. The histologic findings share some similarities to lesions associated with megaesophagus in Friesian foals, as well as esophageal achalasia and Hirschsprung disease in humans., We examined a case of congenital idiopathic megaesophagus (CIM) in a 5-wk-old female Gordon Setter puppy by means of contrast radiography, autopsy, histopathology, and immunohistochemistry. Clinical and radiologic findings included weight stagnation and marked generalized esophageal dilation with ventral displacement of the heart and lungs. These findings were confirmed at autopsy, and segments of the thoracic esophagus were sampled for histopathology. On histopathology, diffuse esophageal muscular atrophy, mucosal erosions, mononuclear inflammation, and a marked reduction in the number of myenteric plexus structures and number of ganglion cells were present (aganglionosis). The latter was determined immunohistochemically using an anti-peripherin antibody as the primary reagent, which provides a strong tool for the histologic confirmation of CIM. The histologic findings share some similarities to lesions associated with megaesophagus in Friesian foals, as well as esophageal achalasia and Hirschsprung disease in humans.

Published

2024

9. Intrafamilial Phenotypic Variability in PRPH2-Related Retinopathy.

Author

Elhusseiny AM, Zhang S, Sharabura AB, Dehnel JR, and Uwaydat SH

Abstract

Purpose This study aimed to describe the intrafamilial phenotypic variability and natural history of a PRPH2 -related retinal dystrophy. Methods We performed a retrospective chart review of seven patients from the same family, five of whom had the c.828+3A>T PRPH2 pathogenic variant, characterizing the natural history and intrafamilial phenotypic variation. Results Over the course of nine years, two patients had a deterioration of vision, one had unchanged visual acuity, and four were lost to follow-up after diagnosis. Two patients developed choroidal neovascular membranes. Five family members completed genetic testing. Conclusions In the current case series, we described the various phenotypes associated with the PRPH2 pathogenic variants in related individuals of the same family. We tracked the changes in visual acuity and phenotype in three related patients over five to nine years. Translational relevance Studying the natural history and phenotypic variations of the PRPH2 gene can lead to targeted therapeutic interventions and personalized treatment strategies for affected individuals., Competing Interests: Human subjects: Consent for treatment and open access publication was obtained or waived by all participants in this study. Institutional Review Board of the University of Arkansas for Medical Sciences issued approval 228531. Animal subjects: All authors have confirmed that this study did not involve animal subjects or tissue. Conflicts of interest: In compliance with the ICMJE uniform disclosure form, all authors declare the following: Payment/services info: All authors have declared that no financial support was received from any organization for the submitted work. Financial relationships: All authors have declared that they have no financial relationships at present or within the previous three years with any organizations that might have an interest in the submitted work. Other relationships: All authors have declared that there are no other relationships or activities that could appear to have influenced the submitted work., (Copyright © 2024, Elhusseiny et al.)

Published

2024

10. Possible Involvement of Microglia in Establishing a Connection between the Central and Peripheral Nervous System.

Author

Kolos, E. A. and Korzhevskii, D. E.

Subjects

*PERIPHERAL nervous system, *CENTRAL nervous system, *MICROGLIA, *SPINAL cord, *DORSAL root ganglia, *GRAY matter (Nerve tissue), *SUPERIOR colliculus

Abstract

In the present study, we studied localization and distribution of microgliocytes in the embryonic rat spinal cord (SC) during the establishment of connections between the central and peripheral nervous systems, the formation of the sensory pathways of the spinal cord. Using anty-Iba-1 antibodies to identify microglial cells and anti-peripherin antibodies to detect primary afferents neurons of the dorsal root ganglion (DRG), it was shown that the microglial cell density nearly doubled in the period from E14 to E15 in the dorsal root entry zone. It was shown that, rat sensory afferents do not yet penetrate into the developing gray matter of the SC during this period but remain within the marginal layer up to 16 days of development (waiting period). At the later stages of prenatal development, the density of microglial cells in the studied area of the SC gradually decreases. By the time of birth, the density of microglial cells decreases by four times compared with the 15th day of embryogenesis. Our data support the hypothesis of the participation of microglia in the temporary blocking of the DRG neurons processes ingrowth into the spinal cord. [ABSTRACT FROM AUTHOR]

Published

2022

11. Distribution of Large and Small Dorsal Root Ganglion Neurons in Common Marmosets.

Author

Kudo, Moeko, Wupuer, Sidikejiang, Kubota, Shinji, and Seki, Kazuhiko

Subjects

DORSAL root ganglia, CALLITHRIX jacchus, NEURONS, CELL size, SPINAL cord

Abstract

The aim of this study was to elucidate the size and distribution of dorsal root ganglion (DRG) neurons in non-human primates and to compare them with those of rodent DRG neurons. By measuring the size of NeuN-, NF200-, and peripherin-positive DRG neurons in the lumbar spinal cord of rats and marmosets, we found that the cell size distribution pattern was comparable in both species, although DRG neurons in marmosets were larger than those of rodents. This is the first demonstration that DRG neurons in marmosets have a bimodal size distribution, which has been well established in rodents and humans. [ABSTRACT FROM AUTHOR]

Published

2021

12. Distribution of Large and Small Dorsal Root Ganglion Neurons in Common Marmosets

Author

Moeko Kudo, Sidikejiang Wupuer, Shinji Kubota, and Kazuhiko Seki

Subjects

dorsal root ganglion (DRG), nonhuman primate, rat, size distribution, NF200, peripherin, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The aim of this study was to elucidate the size and distribution of dorsal root ganglion (DRG) neurons in non-human primates and to compare them with those of rodent DRG neurons. By measuring the size of NeuN-, NF200-, and peripherin-positive DRG neurons in the lumbar spinal cord of rats and marmosets, we found that the cell size distribution pattern was comparable in both species, although DRG neurons in marmosets were larger than those of rodents. This is the first demonstration that DRG neurons in marmosets have a bimodal size distribution, which has been well established in rodents and humans.

Published

2021

13. Developmental Changes in Peripherin-eGFP Expression in Spiral Ganglion Neurons

Author

Karen L. Elliott, Jennifer Kersigo, Jeong Han Lee, Israt Jahan, Gabriela Pavlinkova, Bernd Fritzsch, and Ebenezer N. Yamoah

Subjects

peripherin, Prph-eGFP, type II spiral ganglion neurons, outer hair cells, cochlear nucleus, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The two types of spiral ganglion neurons (SGNs), types I and II, innervate inner hair cells and outer hair cells, respectively, within the mammalian cochlea and send another process back to cochlear nuclei in the hindbrain. Studying these two neuronal types has been made easier with the identification of unique molecular markers. One of these markers, peripherin, was shown using antibodies to be present in all SGNs initially but becomes specific to type II SGNs during maturation. We used mice with fluorescently labeled peripherin (Prph-eGFP) to examine peripherin expression in SGNs during development and in aged mice. Using these mice, we confirm the initial expression of Prph-eGFP in both types I and II neurons and eventual restriction to only type II perikarya shortly after birth. However, while Prph-eGFP is uniquely expressed within type II cell bodies by P8, both types I and II peripheral and central processes continue to express Prph-eGFP for some time before becoming downregulated. Only at P30 was there selective type II Prph-eGFP expression in central but not peripheral processes. By 9 months, only the type II cell bodies and more distal central processes retain Prph-eGFP expression. Our results show that Prph-eGFP is a reliable marker for type II SGN cell bodies beyond P8; however, it is not generally a suitable marker for type II processes, except for central processes beyond P30. How the changes in Prph-eGFP expression relate to subsequent protein expression remains to be explored.

Published

2021

14. Lessons from Animal Models of Cytoplasmic Intermediate Filament Proteins

Author

Bouameur, Jamal-Eddine, Magin, Thomas M., Harris, J. Robin, Series editor, Parry, David A.D., editor, and Squire, John M., editor

Published

2017

15. Developmental Changes in Peripherin- eGFP Expression in Spiral Ganglion Neurons.

Author

Elliott, Karen L., Kersigo, Jennifer, Lee, Jeong Han, Jahan, Israt, Pavlinkova, Gabriela, Fritzsch, Bernd, and Yamoah, Ebenezer N.

Subjects

SPIRAL ganglion, NEURONS, COCHLEA physiology, HAIR cells, PROTEIN expression, COCHLEA, RHOMBENCEPHALON, COCHLEAR nucleus

Abstract

The two types of spiral ganglion neurons (SGNs), types I and II, innervate inner hair cells and outer hair cells, respectively, within the mammalian cochlea and send another process back to cochlear nuclei in the hindbrain. Studying these two neuronal types has been made easier with the identification of unique molecular markers. One of these markers, peripherin, was shown using antibodies to be present in all SGNs initially but becomes specific to type II SGNs during maturation. We used mice with fluorescently labeled peripherin (Prph- eGFP) to examine peripherin expression in SGNs during development and in aged mice. Using these mice, we confirm the initial expression of Prph- eGFP in both types I and II neurons and eventual restriction to only type II perikarya shortly after birth. However, while Prph- eGFP is uniquely expressed within type II cell bodies by P8, both types I and II peripheral and central processes continue to express Prph- eGFP for some time before becoming downregulated. Only at P30 was there selective type II Prph- eGFP expression in central but not peripheral processes. By 9 months, only the type II cell bodies and more distal central processes retain Prph- eGFP expression. Our results show that Prph- eGFP is a reliable marker for type II SGN cell bodies beyond P8; however, it is not generally a suitable marker for type II processes, except for central processes beyond P30. How the changes in Prph- eGFP expression relate to subsequent protein expression remains to be explored. [ABSTRACT FROM AUTHOR]

Published

2021

16. Enterovirus‐A71 exploits peripherin and Rac1 to invade the central nervous system.

Author

Lim, Ze Qin, Ng, Qing Yong, Oo, Yukei, Chu, Justin Jang Hann, Ng, Shi Yan, Sze, Siu Kwan, and Alonso, Sylvie

Abstract

Enterovirus‐A71 (EV‐A71) has been associated with severe neurological forms of hand, foot, and mouth disease (HFMD). EV‐A71 infects motor neurons at neuromuscular junctions (NMJs) to invade the central nervous system (CNS). Here, we investigate the role of peripherin (PRPH) during EV‐A71 infection, a type III intermediate neurofilament involved in neurodegenerative conditions. In mice infected with EV‐A71, PRPH co‐localizes with viral particles in the muscles at NMJs and in the spinal cord. In motor neuron‐like and neuroblastoma cell lines, surface‐expressed PRPH facilitates viral entry, while intracellular PRPH influences viral genome replication through interactions with structural and non‐structural viral components. Importantly, PRPH does not play a role during infection with coxsackievirus A16, another causative agent of HFMD rarely associated with neurological complications, suggesting that EV‐A71 ability to exploit PRPH represents a unique attribute for successful CNS invasion. Finally, we show that EV‐A71 also exploits some of the many PRPH‐interacting partners. Of these, small GTP‐binding protein Rac1 represents a potential druggable host target to limit neuroinvasion of EV‐A71. SYNOPSIS: Enterovirus‐A71, causing Hand, Foot and Mouth Disease with neurological complications, exploits intermediate neurofilament peripherin to infect neurons. Via this interaction, EV‐A71 gains access to the small GTP‐binding protein Rac1, a potential druggable host target. Surface‐expressed and intracellular peripherin (PRPH) facilitates EV‐A71 entry and replication in neuronal cells.EV‐A71 also exploits PRPH interacting partner Rac1 during infection specifically in neuronal cells.PRPH or Rac1 have no role in HFMD‐linked coxsackievirus A16 infection, rarely associated with neurological complications. [ABSTRACT FROM AUTHOR]

Published

2021

17. Nerve Fiber Regeneration in the Rat Sciatic Nerve After Injury and Administration of Mesenchymal Stem Cells.

Author

Petrova, E. S. and Kolos, E. A.

Subjects

MESENCHYMAL stem cells, NERVE fibers, SCIATIC nerve injuries, NERVE grafting, REGENERATION (Biology), TRANSPLANTATION of organs, tissues, etc., SCIATIC nerve

Abstract

Experimental studies seeking a means of stimulating regeneration of damaged nerve conductors frequently use mesenchymal stem cells (MSC). The aim of the present work was to study the influence of subperineurial administration of MSC on regenerating fibers in the injured rat sciatic nerve using immunohistochemical detection of peripherin. Suspensions of MSC (5∙104 cells in 5 μl of medium) from Wistar–Kyoto rat bone marrow were transplanted into ligature-damaged (40 sec) sciatic nerves in adult animals. After placing of the ligature, the control group received subperineurial medium (5 μl). Two months after surgery, peripherin-immunopositive regenerating nerve fibers were counted and measured on cross sections passing through the distal segment of the recipient nerve. Morphometric analysis of regenerating fibers in ImageJ (NIH, USA) showed that mean nerve fiber thickness in animals of the experimental group increased significantly compared with controls. Studies of the thickness distribution of nerve fibers in the distal segment of the damaged nerve showed that animals given single MSC transplants had a greater percentage of large-diameter fibers than animals of the control group. [ABSTRACT FROM AUTHOR]

Published

2021

18. Photoreceptor Disc Enclosure Is Tightly Controlled by Peripherin-2 Oligomerization.

Author

Lewis, Tylor R., Makia, Mustafa S., Castillo, Carson M., Al-Ubaidi, Muayyad R., Naash, Muna I., and Arshavsky, Vadim Y.

Subjects

*PHOTORECEPTORS, *OLIGOMERIZATION, *RETINAL diseases, *GENETIC mutation, *OLIGOMERS

Abstract

Mutations in the PRPH2 gene encoding the photoreceptor-specific protein PRPH2 (also known as peripherin-2 or rds) cause a broad range of autosomal dominant retinal diseases. Most of these mutations affect the structure of the light-sensitive photoreceptor outer segment, which is composed of a stack of flattened "disc" membranes surrounded by the plasma membrane. The outer segment is renewed on a daily basis in a process whereby new discs are added at the outer segment base and old discs are shed at the outer segment tip. New discs are formed as serial membrane evaginations, which eventually enclose through a complex process of membrane remodeling (completely in rods and partially in cones). As disc enclosure proceeds, PRPH2 localizes to the rims of enclosed discs where it forms oligomers which fortify the highly curved membrane structure of these rims. In this study, we analyzed the outer segment phenotypes of mice of both sexes bearing a single copy of either the C150S or the Y141C PRPH2 mutation known to prevent or increase the degree of PRPH2 oligomerization, respectively. Strikingly, both mutations increased the number of newly forming, not-yet-enclosed discs, indicating that the precision of disc enclosure is regulated by PRPH2 oligomerization. Without tightly controlled enclosure, discs occasionally over-elongate and form large membranous "whorls" instead of disc stacks. These data show that the defects in outer segment structure arising from abnormal PRPH2 oligomerization are manifested at the stage of disc enclosure. [ABSTRACT FROM AUTHOR]

Published

2021

19. Photoreceptor Disc Enclosure Occurs in the Absence of Normal Peripherin-2/rds Oligomerization

Author

Tylor R. Lewis, Mustafa S. Makia, Mashal Kakakhel, Muayyad R. Al-Ubaidi, Vadim Y. Arshavsky, and Muna I. Naash

Subjects

photoreceptor, peripherin, outer segment, disc, retina, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Mutations in the peripherin-2 gene (PRPH2, also known as rds) cause a heterogeneous range of autosomal dominant retinal diseases. PRPH2 encodes a photoreceptor-specific tetraspanin protein, PRPH2, that is a main structural component of the photoreceptor outer segment. PRPH2 distributes to the rims of outer segment disc membranes as they undergo the process of disc membrane enclosure. Within these rims, PRPH2 exists in homo-oligomeric form or as a hetero-oligomer with another tetraspanin protein, ROM1. While complete loss of PRPH2 prevents photoreceptor outer segment formation, mutations affecting the state of its oligomerization, including C150S, C213Y and Y141C, produce outer segment structural defects. In this study, we addressed whether any of these mutations also affect disc enclosure. We employed recently developed methodology for ultrastructural analysis of the retina, involving tissue processing with tannic acid, to assess the status of disc enclosure in knockin mouse models bearing either one or two alleles of the C150S, C213Y and Y141C PRPH2 mutations. While varying degrees of outer segment structural abnormalities were observed in each of these mouse models, they contained both newly forming “open” discs and mature “enclosed” discs. These data demonstrate that normal PRPH2 oligomerization is not essential for photoreceptor disc enclosure.

Published

2020

20. SGN nerve filaments develop synapses with IHCs earlier than with OHCs in C57BL/6 mouse inner ear.

Author

HAN, Z., DING, J., CHENG, X., HSIEH, Y.-L., WANG, C.-J., WANG, J.-Y., YANG, J.-M., CONG, N., and CHI, F.-L.

Abstract

OBJECTIVE: To explore the connections between hair cells and spiral ganglion neurons (SGNs) during the development of the C57BL/6 mouse inner ear. MATERIALS AND METHODS: The specimens of C57BL/6 mouse inner ear, from E15 (embryo day 15) to adult mouse, were collected; immunohistochemistry was employed to explore the frozen sections of specimens. RESULTS: The development of cochlea starts sequentially from the basal turn to the apex turn. Morphological development of SGNs occurs mainly from E16 to P12 (postnatal day 12). Hair cells appear from E18 to P12, and inner hair cells (IHCs) develop earlier than outer hair cells (OHCs). The connections between hair cells and SGNs begin to develop during E18-P1, morphologically resemble mature synapses during P8-P12, and completely mature in adult mice. CONCLUSIONS: The genesis of auditory ribbon synapse occurs from E18 to P1. Synchronized with the development of SGNs and hair cells, the functional filaments remain connected to hair cells, while the spare ones get disconnected from the surface of hair cells. Connections between SGN nerve filaments and IHCs occur earlier than those between SGN nerve filaments and OHCs. [ABSTRACT FROM AUTHOR]

Published

2020

21. Multimeric conformation of type III intermediate filaments but not the filamentous conformation exhibits high affinity to lipid bilayers.

Author

Hwang, Beomju and Ise, Hirohiko

Subjects

*INTERMEDIATE filament proteins, *CYTOPLASMIC filaments, *GLIAL fibrillary acidic protein, *BILAYER lipid membranes, *SURFACE plasmon resonance, *POLYACRYLAMIDE gel electrophoresis

Abstract

Vimentin, desmin, glial fibrillary acidic protein (GFAP) and peripherin, classified as the type III intermediate filament family, maintain the integrity and architecture of various cell types. Recently, we reported their cell surface expression and binding to multivalent N‐acetylglucosamine‐conjugated polymers. Furthermore, the presence of vimentin on the surface of various cell types including malignant tumor cells and fibroblasts has been demonstrated. Type III intermediate filament proteins are traditionally considered intracellular proteins and do not possess signal peptides for cell membrane recruitment. Therefore, the mechanism of their transport to the cell surface is unclear. In the current study, we aimed to elucidate this mechanism by focusing on the relationship between their multimeric structure and lipid bilayer affinity. Blue native polyacrylamide gel electrophoresis demonstrated that cell surface‐expressed type III intermediate filament proteins formed a multimeric mostly including 4–12‐mers but not filamentous structure. Moreover, surface plasmon resonance analysis revealed that the multimeric structure of these recombinant proteins had high affinity to lipid bilayers, whereas their filament‐like large multimeric structure did not. Our results suggest that type III intermediate filaments are incorporated into the cell membrane through alteration from a filamentous to a multimeric structure. [ABSTRACT FROM AUTHOR]

Published

2020

22. Photoreceptor Disc Enclosure Occurs in the Absence of Normal Peripherin-2/rds Oligomerization.

Author

Lewis, Tylor R., Makia, Mustafa S., Kakakhel, Mashal, Al-Ubaidi, Muayyad R., Arshavsky, Vadim Y., and Naash, Muna I.

Subjects

PHOTORECEPTORS, OLIGOMERIZATION, TANNINS, RECESSIVE genes, RETINAL diseases, GENETIC mutation, STRUCTURAL components

Abstract

Mutations in the peripherin-2 gene (PRPH2 , also known as rds) cause a heterogeneous range of autosomal dominant retinal diseases. PRPH2 encodes a photoreceptor-specific tetraspanin protein, PRPH2, that is a main structural component of the photoreceptor outer segment. PRPH2 distributes to the rims of outer segment disc membranes as they undergo the process of disc membrane enclosure. Within these rims, PRPH2 exists in homo-oligomeric form or as a hetero-oligomer with another tetraspanin protein, ROM1. While complete loss of PRPH2 prevents photoreceptor outer segment formation, mutations affecting the state of its oligomerization, including C150S, C213Y and Y141C, produce outer segment structural defects. In this study, we addressed whether any of these mutations also affect disc enclosure. We employed recently developed methodology for ultrastructural analysis of the retina, involving tissue processing with tannic acid, to assess the status of disc enclosure in knockin mouse models bearing either one or two alleles of the C150S, C213Y and Y141C PRPH2 mutations. While varying degrees of outer segment structural abnormalities were observed in each of these mouse models, they contained both newly forming "open" discs and mature "enclosed" discs. These data demonstrate that normal PRPH2 oligomerization is not essential for photoreceptor disc enclosure. [ABSTRACT FROM AUTHOR]

Published

2020

23. Motor Neuron Disease: Amyotrophic Lateral Sclerosis

Author

Leigh, Nigel, Sreedharan, Jemeen, Wijesekera, Lokesh, Pfaff, Donald W., editor, and Volkow, Nora D., editor

Published

2016

24. Analysis of the Outer Retinal Bands in ABCA4 and PRPH2-Associated Retinopathy using OCT.

Author

Heath Jeffery RC, Lo J, Thompson JA, Lamey TM, McLaren TL, De Roach JN, Ayton LN, Vincent AL, Sharma A, and Chen FK

Subjects

Humans, Case-Control Studies, Tomography, Optical Coherence methods, ATP-Binding Cassette Transporters genetics, Macular Degeneration diagnosis, Retinal Diseases diagnosis, Retinal Diseases genetics

Abstract

Purpose: To evaluate the outer retinal bands using OCT in ABCA4- and PRPH2-associated retinopathy and develop a novel imaging biomarker to differentiate between these 2 genotypes., Design: Multicenter case-control study., Participants: Patients with a clinical and genetic diagnosis of ABCA4- or PRPH2-associated retinopathy and an age-matched control group., Methods: Macular OCT was used to measure the thickness of the outer retinal bands 2 and 4 by 2 independent examiners at 4 retinal loci., Main Outcome Measures: Outcome measures included the thicknesses of band 2, band 4, and the band 2/band 4 ratio. Linear mixed modeling was used to make comparisons across the 3 groups. Receiver operating characteristic (ROC) analysis determined the optimal cutoff for the band 2/band 4 ratio to distinguish PRPH2- from ABCA4-associated retinopathy., Results: We included 45 patients with ABCA4 variants, 45 patients with PRPH2 variants, and 45 healthy controls. Band 2 was significantly thicker in patients with PRPH2 compared with ABCA4 (21.4 vs. 15.9 μm, P < 0.001) variants, whereas band 4 was thicker in patients with ABCA4 variants than those with PRPH2 variants (27.5 vs. 21.7 μm, P < 0.001). Similarly, the band 2/band 4 ratio was significantly different (1.0 vs. 0.6 for PRPH2 vs. ABCA4, P < 0.001). The area under the ROC curve was 0.87 for either band 2 (> 18.58 μm) or band 4 (< 26.17 μm) alone and 0.99 (95% confidence interval: 0.97-0.99) for the band 2/band 4 ratio with a cutoff threshold of 0.79, providing 100% specificity., Conclusions: We report an altered outer retinal band profile whereby the band 2/band 4 ratio was able to discriminate between PRPH2- and ABCA4-associated retinopathy. This may have future clinic utility in predicting the genotype and provide further insight into the anatomic correlate of band 2., Financial Disclosure(s): Proprietary or commercial disclosure may be found in the Footnotes and Disclosures at the end of this article., (Copyright © 2023 American Academy of Ophthalmology. Published by Elsevier Inc. All rights reserved.)

Published

2024

25. Introduction and validation of a new semi-automated method to determine sympathetic fiber density in target tissues.

Author

Bleck, Dennis, Ma, Li, Erdene-Bymbadoo, Lkham, Brinks, Ralph, Schneider, Matthias, Tian, Li, and Pongratz, Georg

Subjects

*TYROSINE hydroxylase, *FIBERS, *INNERVATION, *TISSUES, *DENSITY, *ENDOCRINE system, *NERVE fibers

Abstract

In recent years, the role of sympathetic nervous fibers in chronic inflammation has become increasingly evident. At the onset of inflammation, sympathetic activity is increased in the affected tissue. However, sympathetic fibers are largely absent from chronically inflamed tissue. Apparently, there is a very dynamic relationship between sympathetic innervation and the immune system in areas of inflammation, and hence a rapid and easy method for quantification of nerve fiber density of target organs is of great value to answer potential research questions. Currently, nervous fiber densities are either determined by tedious manual counting, which is not suitable for high throughput approaches, or by expensive automated processes relying on specialized software and high-end microscopy equipment. Usually, tyrosine hydroxylase (TH) is used as the marker for sympathetic fibers. In order to overcome the current quantification bottleneck with a cost-efficient alternative, an automated process was established and compared to the classic manual approach of counting TH-positive sympathetic fibers. Since TH is not exclusively expressed on sympathetic fibers, but also in a number of catecholamine-producing cells, a prerequisite for automated determination of fiber densities is to reliably distinct between cells and fibers. Therefore, an additional staining using peripherin exclusively expressed in nervous fibers as a secondary marker was established. Using this novel approach, we studied the spleens from a syndecan-3 knockout (SDC3KO) mouse line, and demonstrated equal results on SNS fiber density for both manual and automated counts (Manual counts: wildtype: 22.57 +/- 11.72 fibers per mm2; ko: 31.95 +/- 18.85 fibers per mm2; p = 0.05; Automated counts: wildtype: 31.6 +/- 18.98 fibers per mm2; ko: 45.49 +/- 19.65 fibers per mm2; p = 0.02). In conclusion, this new and simple method can be used as a high-throughput approach to reliably and quickly estimate SNS nerve fiber density in target tissues. [ABSTRACT FROM AUTHOR]

Published

2019

26. Recessive pediatric-onset cone-rod dysfunction or dominant maculopathy in a consanguineous family harboring the peripherin mutation p.Arg220Gln.

Author

Khan, Arif O.

Subjects

*CONSANGUINITY, *GENETIC mutation, *ELECTRORETINOGRAPHY, *EYE abnormalities, *GENETIC testing

Abstract

Purpose: Heterozygous peripherin mutation is associated with a wide range of typically adult-onset retinal phenotypes which can include asymptomatic maculopathy. There are few reports of biallelic peripherin mutations, only one of which detailed the ophthalmic phenotype. This report documents the retinal phenotype associated with homozygosity for a known peripherin mutation (c.659G>A; p.Arg220Gln), highlights its similar appearance to what was described in the one previous report, and shows how examination of family members can be useful in genetic diagnosis. Methods: Retrospective case series. Results: A 13-year-old Emirati boy was referred for low vision. The parents felt he was blind at birth but noted improvement with time. Retinal examination was significant for central macula horizontal ovoid discoloration as was documented for young adults with homozygous peripherin mutations in the one previous report. Electroretinography revealed cone-rod dysfunction. Both asymptomatic parents were examined and found to have central macular abnormalities. Sanger sequencing of peripherin based on clinical features uncovered the pathogenic variant c.659G>A; p.Arg22Gln (NM_000322.4) in homozygosity in the child and in heterozygosity in each parent. Exome sequencing in the child excluded pathologic variants in other retinal dystrophy genes. Conclusions: The experience with this family highlights clinical features suggestive for biallelic peripherin mutations, documents cone-rod dysfunction as associated with homozygosity for the p.Arg220Gln peripherin mutation, and is an example of how examination of family members can help to guide genetic testing. [ABSTRACT FROM AUTHOR]

Published

2019

27. Structure of Neural Intermediate Filaments

Author

Parry, David A.D., Nixon, Ralph A., editor, and Yuan, Aidong, editor

Published

2011

28. Peripherin Pathology

Author

McLean, Jesse R., Robertson, Janice, Nixon, Ralph A., editor, and Yuan, Aidong, editor

Published

2011

29. Algal Toxin Azaspiracid-1 Induces Early Neuronal Differentiation and Alters Peripherin Isoform Stoichiometry

Author

Linda V. Hjørnevik, Ann K. Frøyset, Toril A. Grønset, Krisna Rungruangsak-Torrissen, and Kari E. Fladmark

Subjects

azaspiracid, algal toxin, neurotoxin, peripherin, intermediate filament, isoform, PC12 cells, Biology (General), QH301-705.5

Abstract

Azaspiracid-1 is an algal toxin that accumulates in edible mussels, and ingestion may result in human illness as manifested by vomiting and diarrhoea. When injected into mice, it causes neurotoxicological symptoms and death. Although it is well known that azaspiracid-1 is toxic to most cells and cell lines, little is known about its biological target(s). A rat PC12 cell line, commonly used as a model for the peripheral nervous system, was used to study the neurotoxicological effects of azaspiracid-1. Azaspiracid-1 induced differentiation-related morphological changes followed by a latter cell death. The differentiated phenotype showed peripherin-labelled neurite-like processes simultaneously as a specific isoform of peripherin was down-regulated. The precise mechanism behind this down-regulation remains uncertain. However, this study provides new insights into the neurological effects of azaspiracid-1 and into the biological significance of specific isoforms of peripherin.

Published

2015

30. Multiple complex somatosensory systems in mature rat molars defined by immunohistochemistry.

Author

Byers, Margaret R. and Cornel, Leanne M.

Subjects

*SOMATOSENSORY cortex, *SENSES, *IMMUNOHISTOCHEMISTRY, *MOLARS, *LABORATORY rats

Abstract

Objective Intradental sensory receptors trigger painful sensations and unperceived mechanosensitivity, but the receptor bases for those functions are only partly defined. We present new evidence here concerning complex endings of myelinated axons in rat molars. Design We sectioned mature rat jaws in sagittal and transverse planes to analyze neural immunoreactivity (IR) for parvalbumin, peripherin, neurofilament protein, neurotrophin receptors, synaptophysin, calcitonin gene-related peptide (CGRP), or mas-related g-protein-receptor-d (Mrgprd). Results We found two complex sensory systems in mature rat molar dentin that labeled with neurofilament protein-IR, plus either parvalbumin-IR or peripherin-IR. The parvalbumin-IR system made extensively branched, beaded endings focused into dentin throughout each pulp horn. The peripherin-IR system primarily made unbeaded, fork-shaped dentinal endings scattered throughout crown including cervical regions. Both of these systems differed from neuropeptide CGRP-IR. In molar pulp we found peripherin- and parvalbumin-IR layered endings, either near special horizontal plexus arrays or in small coiled endings near tangled plexus, each with specific foci for specific pulp horns. Parvalbumin-IR nerve fibers had Aβ axons (5–7 μm diameter), while peripherin-IR axons were thinner Aδ size (2–5 μm). Mechano-nociceptive Mrgprd-IR was only found in peripherin-IR axons. Conclusions Complex somatosensory receptors in rat molars include two types of dentinal endings that both differ from CGRP-IR endings, and at least two newly defined types of pulpal endings. The PV-IR neurons with their widely branched, synaptophysin-rich, intradentinal beaded endings are good candidates for endodontic non-nociceptive, low threshold, unperceived mechanoreceptors. The complex molar dentinal and pulpal sensory systems were not found in rat incisors. [ABSTRACT FROM AUTHOR]

Published

2018

31. Evaluation of peripherin in biofluids of patients with motor neuron diseases

Author

Giulia Musso, Flavia Raggi, Chiara Briani, Andrea Fortuna, Matteo Gizzi, Elena Pegoraro, Mara Seguso, Daniele Sabbatini, Annachiara Cagnin, Elisabetta Toffanin, S. Ruggero, Gianni Sorarù, Jessica Mandrioli, and Luca Bello

Subjects

Pathology, medicine.medical_specialty, Neurofilament, Peripherins, Neurosciences. Biological psychiatry. Neuropsychiatry, Degeneration (medical), Brief Communication, Cerebrospinal fluid, Neurofilament Proteins, medicine, Humans, Longitudinal Studies, Motor Neuron Disease, Amyotrophic lateral sclerosis, RC346-429, Intermediate filament, Retrospective Studies, business.industry, General Neuroscience, Peripherin, Motor neuron, medicine.disease, medicine.anatomical_structure, Peripheral nervous system, Neurology. Diseases of the nervous system, Neurology (clinical), Brief Communications, business, Biomarkers, RC321-571

Abstract

Peripherin (PRPH), a type III intermediate filament, assembles with neurofilaments in neurons of the peripheral nervous system, including lower motor neurons (LMN). To evaluate the role of PRPH in LMN degeneration, we assessed PRPH and neurofilament light chain (NfL) in cerebrospinal fluid (CSF) and serum of 91 patients with motor neuron diseases (MND) and 69 controls. Overall, we found PRPH to be more concentrated in serum than in CSF. Serum PRPH resulted significantly increased in MND patients but it was unrelated to CSF‐NfL or survival in the amyotrophic lateral sclerosis (ALS) subset. PRPH might represent a marker of LMN involvement.

Published

2021

32. Nerve Fiber Regeneration in the Rat Sciatic Nerve After Injury and Administration of Mesenchymal Stem Cells

Author

E. A. Kolos and E. S. Petrova

Subjects

Pathology, medicine.medical_specialty, business.industry, General Neuroscience, medicine.medical_treatment, Regeneration (biology), Mesenchymal stem cell, Nerve fiber, Peripherin, Rat Bone Marrow, medicine.anatomical_structure, Medicine, Immunohistochemistry, Sciatic nerve, business, Ligature

Abstract

Experimental studies seeking a means of stimulating regeneration of damaged nerve conductors frequently use mesenchymal stem cells (MSC). The aim of the present work was to study the influence of subperineurial administration of MSC on regenerating fibers in the injured rat sciatic nerve using immunohistochemical detection of peripherin. Suspensions of MSC (5∙104 cells in 5 μl of medium) from Wistar–Kyoto rat bone marrow were transplanted into ligature-damaged (40 sec) sciatic nerves in adult animals. After placing of the ligature, the control group received subperineurial medium (5 μl). Two months after surgery, peripherin-immunopositive regenerating nerve fibers were counted and measured on cross sections passing through the distal segment of the recipient nerve. Morphometric analysis of regenerating fibers in ImageJ (NIH, USA) showed that mean nerve fiber thickness in animals of the experimental group increased significantly compared with controls. Studies of the thickness distribution of nerve fibers in the distal segment of the damaged nerve showed that animals given single MSC transplants had a greater percentage of large-diameter fibers than animals of the control group.

Published

2021

33. Photoreceptor Disc Enclosure Is Tightly Controlled by Peripherin-2 Oligomerization

Author

Tylor R. Lewis, Muayyad R. Al-Ubaidi, Muna I. Naash, Vadim Y. Arshavsky, Mustafa S Makia, and Carson M. Castillo

Subjects

Peripherins, Mice, 03 medical and health sciences, chemistry.chemical_compound, Retinal Rod Photoreceptor Cells, medicine, Animals, Peripherin 2, Process (anatomy), Research Articles, 030304 developmental biology, 0303 health sciences, Retina, Chemistry, General Neuroscience, Cell Membrane, 030305 genetics & heredity, Membrane structure, Peripherin, Retinal, Rod Cell Outer Segment, Photoreceptor outer segment, Mice, Inbred C57BL, Membrane, medicine.anatomical_structure, Mutation, Retinal Cone Photoreceptor Cells, Biophysics, Photoreceptor Cells, Vertebrate

Abstract

Mutations in thePRPH2gene encoding the photoreceptor-specific protein PRPH2 (also known as peripherin-2 or rds) cause a broad range of autosomal dominant retinal diseases. Most of these mutations affect the structure of the light-sensitive photoreceptor outer segment, which is composed of a stack of flattened “disc” membranes surrounded by the plasma membrane. The outer segment is renewed on a daily basis in a process whereby new discs are added at the outer segment base and old discs are shed at the outer segment tip. New discs are formed as serial membrane evaginations, which eventually enclose through a complex process of membrane remodeling (completely in rods and partially in cones). As disc enclosure proceeds, PRPH2 localizes to the rims of enclosed discs where it forms oligomers which fortify the highly curved membrane structure of these rims. In this study, we analyzed the outer segment phenotypes of mice of both sexes bearing a single copy of either the C150S or the Y141C PRPH2 mutation known to prevent or increase the degree of PRPH2 oligomerization, respectively. Strikingly, both mutations increased the number of newly forming, not-yet-enclosed discs, indicating that the precision of disc enclosure is regulated by PRPH2 oligomerization. Without tightly controlled enclosure, discs occasionally over-elongate and form large membranous “whorls” instead of disc stacks. These data show that the defects in outer segment structure arising from abnormal PRPH2 oligomerization are manifested at the stage of disc enclosure.SIGNIFICANCE STATEMENTThe light-sensitive photoreceptor outer segment contains a stack of flattened “disc” membranes that are surrounded, or “enclosed,” by the outer segment membrane. Disc enclosure is an adaptation increasing photoreceptor light sensitivity by facilitating the diffusion of the second messenger along the outer segment axes. However, the molecular mechanisms by which photoreceptor discs enclose within the outer segment membrane remain poorly understood. We now demonstrate that oligomers of the photoreceptor-specific protein peripherin-2, or PRPH2, play an active role in this process. We further propose that defects in disc enclosure because of abnormal PRPH2 oligomerization result in major structural abnormalities of the outer segment, ultimately leading to loss of visual function and cell degeneration in PRPH2 mutant models and human patients.

Published

2021

34. Changes in the Gene Expression Profiles of the Inferior Colliculus Following Unilateral Cochlear Ablation in Adult Rats

Author

Hog Kwon Kil, So Young Kim, Chang-Ho Lee, Da-Hye Lee, Kyung Woon Kim, and So Min Lee

Subjects

0301 basic medicine, Inferior colliculus, medicine.medical_specialty, Biology, Biochemistry, Rats, Sprague-Dawley, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, Gene expression, Genetics, medicine, Animals, Hearing Loss, Neurotransmitter, Molecular Biology, Gene, Ecology, Evolution, Behavior and Systematics, Reverse Transcriptase Polymerase Chain Reaction, Microarray analysis techniques, Gene Expression Profiling, Auditory Threshold, Peripherin, General Medicine, Inferior Colliculi, Cochlea, Rats, Solute carrier family, Reverse transcription polymerase chain reaction, 030104 developmental biology, Endocrinology, chemistry, 030220 oncology & carcinogenesis, Female

Abstract

This study aimed to explore gene expression changes in the inferior colliculus (IC) after single-sided deafness (SSD). Forty 8-week-old female Sprague–Dawley rats were used. Twenty rats underwent right-side cochlear ablation, and IC tissues were harvested after 2 weeks (SSD 2-week group). Twenty rats underwent a sham operation and were sacrificed after 2 weeks (control group). Both sides of the IC were analyzed using a gene expression array. Pathway analyses were performed on genes that were differentially expressed compared with their levels in the control group. The expression levels of genes involved in the candidate pathways were confirmed using reverse transcription polymerase chain reaction (RT-PCR). Among the genes with ≥ 1.5-fold changes in expression levels and P

Published

2021

35. Rostro-caudal maturation of glial cells in the accessory olfactory system during development: involvement in outgrowth of Gn RH neurites.

Author

Geller, Sarah, Lomet, Didier, Caraty, Alain, Tillet, Yves, Duittoz, Anne, and Vaudin, Pascal

Subjects

*NEUROGLIA, *MAMMAL development, *NEURONS, *PROSENCEPHALON, *EMBRYOLOGY

Abstract

During mammalian embryonic development, Gn RH neurones differentiate from the nasal placode and migrate through the nasal septum towards the forebrain. We previously showed that a category of glial cells, the olfactory ensheathing cells ( OEC), forms the microenvironment of migrating Gn RH neurones. Here, to characterize the quantitative and qualitative importance of this glial, we investigated the spatiotemporal maturation of glial cells in situ and the role of maturing glia in Gn RH neurones development ex vivo. More than 90% of migrating Gn RH neurones were found to be associated with glial cells. There was no change in the cellular microenvironment of Gn RH neurones in the regions crossed during embryonic development as glial cells formed the main microenvironment of these neurones (53.4%). However, the phenotype of OEC associated with Gn RH neurones changed across regions. The OEC progenitors immunoreactive to brain lipid binding protein formed the microenvironment of migrating Gn RH neurones from the vomeronasal organ to the telencephalon and were also present in the diencephalon. However, during Gn RH neurone migration, maturation of OEC to [ GFAP+] state (glial fibrillary acid protein) was only observed in the nasal septum. Inducing depletion of OEC in maturation, using transgenic mice expressing herpes simplex virus thymidine kinase driven by the GFAP promoter, had no impact on neurogenesis or on triggering Gn RH neurones migration in nasal explant culture. Nevertheless, depletion of [ GFAP+] cells decreased Gn RH neurites outgrowth by 57.4%. This study suggests that specific maturation of OEC in the nasal septum plays a role in morphological differentiation of Gn RH neurones. [ABSTRACT FROM AUTHOR]

Published

2017

36. Dynamic Expression of Sox2, Gata3, and Prox1 during Primary Auditory Neuron Development in the Mammalian Cochlea.

Author

Nishimura, Koji, Noda, Teppei, and Dabdoub, Alain

Subjects

*NEURON development, *AUDITORY neurons, *COCHLEA, *BRAIN stem, *SRY gene

Abstract

Primary auditory neurons (PANs) connect cochlear sensory hair cells in the mammalian inner ear to cochlear nucleus neurons in the brainstem. PANs develop from neuroblasts delaminated from the proneurosensory domain of the otocyst and keep maturing until the onset of hearing after birth. There are two types of PANs: type I, which innervate the inner hair cells (IHCs), and type II, which innervate the outer hair cells (OHCs). Glial cells surrounding these neurons originate from neural crest cells and migrate to the spiral ganglion. Several transcription factors are known to regulate the development and differentiation of PANs. Here we systematically examined the spatiotemporal expression of five transcription factors: Sox2, Sox10, Gata3, Mafb, and Prox1 from early delamination at embryonic day (E) 10.5 to adult. We found that Sox2 and Sox10 were initially expressed in the proneurosensory cells in the otocyst (E10.5). By E12.75 both Sox2 and Sox10 were downregulated in the developing PANs; however, Sox2 expression transiently increased in the neurons around birth. Furthermore, both Sox2 and Sox10 continued to be expressed in spiral ganglion glial cells. We also show that Gata3 and Prox1 were first expressed in all developing neurons, followed by a decrease in expression of Gata3 and Mafb in type I PANs and Prox1 in type II PANs as they matured. Moreover, we describe two subtypes of type II neurons based on Peripherin expression. These results suggest that Sox2, Gata3 and Prox1 play a role during neurogenesis as well as maturation of the PANs. [ABSTRACT FROM AUTHOR]

Published

2017

37. T Cells from NOD-PerIg Mice Target Both Pancreatic and Neuronal Tissue

Author

Rachel Ettinger, David V. Serreze, Torrian Green, Zoë Bichler, Timothy J. Hines, Jeremy J. Racine, Brynn M Cairns, Laura C. Anderson, Abigail L. D. Tadenev, Rosalinda Doty, Jacqueline K. White, Robert W. Burgess, Janine M Wotton, Harold D. Chapman, and Meaghan E Dyer

Subjects

Transgene, Immunology, Neuritis, Peripherin, Spleen, Nod, Biology, Molecular biology, medicine.anatomical_structure, Splenocyte, medicine, Immunology and Allergy, Peripheral neuritis, CD8

Abstract

It has become increasingly appreciated that autoimmune responses against neuronal components play an important role in type 1 diabetes (T1D) pathogenesis. In fact, a large proportion of islet-infiltrating B lymphocytes in the NOD mouse model of T1D produce Abs directed against the neuronal type III intermediate filament protein peripherin. NOD-PerIg mice are a previously developed BCR-transgenic model in which virtually all B lymphocytes express the H and L chain Ig molecules from the intra-islet–derived anti-peripherin–reactive hybridoma H280. NOD-PerIg mice have accelerated T1D development, and PerIg B lymphocytes actively proliferate within islets and expand cognitively interactive pathogenic T cells from a pool of naive precursors. We now report adoptively transferred T cells or whole splenocytes from NOD-PerIg mice expectedly induce T1D in NOD.scid recipients but, depending on the kinetics of disease development, can also elicit a peripheral neuritis (with secondary myositis). This neuritis was predominantly composed of CD4+ and CD8+ T cells. Ab depletion studies showed neuritis still developed in the absence of NOD-PerIg CD8+ T cells but required CD4+ T cells. Surprisingly, sciatic nerve–infiltrating CD4+ cells had an expansion of IFN-γ− and TNF-α− double-negative cells compared with those within both islets and spleen. Nerve and islet-infiltrating CD4+ T cells also differed by expression patterns of CD95, PD-1, and Tim-3. Further studies found transitory early B lymphocyte depletion delayed T1D onset in a portion of NOD-PerIg mice, allowing them to survive long enough to develop neuritis outside of the transfer setting. Together, this study presents a new model of peripherin-reactive B lymphocyte–dependent autoimmune neuritis.

Published

2020

38. Murine neuroblastoma cell lines developed by conditional reprogramming preserve heterogeneous phenotypes observed in vivo

Author

Larissa Wietlisbach, You-Shin Chen, Susana Galli, Emily Trinh, Jason U. Tilan, Sung-Hyeok Hong, Richard Schlegel, Ewa Krawczyk, Joanna Kitlinska, and Sara F Misiukiewicz

Subjects

0301 basic medicine, Mice, Transgenic, Biology, Article, Pathology and Forensic Medicine, Transgenic Model, neuroblastoma, 03 medical and health sciences, 0302 clinical medicine, In vivo, Cell Line, Tumor, Neuroblastoma, medicine, Animals, Humans, Cellular Reprogramming Techniques, Molecular Biology, conditional reprogramming, Mesenchymal stem cell, Peripherin, Neoplasms, Experimental, Cell Biology, medicine.disease, preclinical models, Rats, 3. Good health, Phenotype, 030104 developmental biology, Cell culture, 030220 oncology & carcinogenesis, Cancer research, Reprogramming, Biomarkers, primary cell culture

Abstract

Neuroblastoma (NB) is a pediatric tumor of the peripheral nervous system. Treatment of the disease represents an unsolved clinical problem, as survival of patients with aggressive form of NB remains below 50%. Despite recent identification of numerous potential therapeutic targets, clinical trials validating them are challenging due to the rarity of the disease and its high patient-to-patient heterogeneity. Hence, there is a need for the accurate preclinical models that would allow testing novel therapeutic approaches and prioritizing the clinical studies, preferentially in personalized way. Here, we propose using conditional reprogramming (CR) technology for rapid development of primary NB cell cultures that could become a new model for such tests. This newly established method allowed for indefinite propagation of normal and tumor cells of epithelial origin in an undifferentiated state by their culture in the presence of Rho-associated kinase (ROCK) inhibitor, Y-27632, and irradiated mouse feeder cells. Using a modification of this approach, we isolated cell lines from tumors arising in the TH-MYCN murine transgenic model of NB (CR-NB). The cells were positive for neuronal markers, including Phox2B and peripherin and consisted of two distinct populations: mesenchymal and adrenergic expressing corresponding markers of their specific lineage. This heterogeneity of the CR-NB cells mimicked the different tumor cell phenotypes in TH-MYCN tumor tissues. The CR-NB cells preserved anchorage-independent growth capability and were successfully passaged, frozen and biobanked. Further studies are required to determine the utility of this method for isolation of human NB cultures, which can become a novel model for basic, translational, and clinical research, including individualized drug testing.

Published

2020

39. Регенерация нервных волокон седалищного нерва крысы после повреждения и введения мезенхимных стволовых клеток

Subjects

Pathology, medicine.medical_specialty, Chemistry, medicine.medical_treatment, Regeneration (biology), Mesenchymal stem cell, Peripherin, General Medicine, Transplantation, medicine, Immunohistochemistry, Distal segment, Sciatic nerve, Ligature

Abstract

Mesenchymal stem cells (MSCs) are often used in the experimental studies of the enhancement of damaged nerve regeneration. The aim of this work was to study the effect of subperineural transplantation of MSCs on the regenerating fibers of a damaged sciatic nerve in rats using immunohistochemical detection of peripherin. The suspension bone marrow-derived mesenchymal stem cells(5x104 cells in 5 μl of medium) from Wistar-Kyoto rat was transplanted into the rat sciatic nerve damaged by ligature application (40 s). 5 μl of culture medium was injected subperineurally into the animals in the control group following the ligature application. Two months after the operation, peripherin-immunopositive nerve fibers were counted and measured on transverse sections of the distal segment of the recipient's nerve. Morphometric analysis of regenerating fibers was performed using the ImageJ software (NIH, USA). It showed that the average thickness of nerve fibers in animals of the experimental group was increased. A study of the thickness of the nerve fibers of the distal segment of the damaged nerve showed that in animals treated with MSCs, the percentage of larger diameter fibers was higher in comparison with the control group.

Published

2020

40. Иммуногистохимическое исследование иннервации надпочечника крысы

Subjects

Pathology, medicine.medical_specialty, Tyrosine hydroxylase, biology, Peripherin, Sympathetic trunk, General Medicine, medicine.anatomical_structure, Cortex (anatomy), medicine, Synaptophysin, biology.protein, Cholinergic, Adrenal medulla, Medulla

Abstract

The aim of the study was to study the innervation of the cortical part and medulla of the rat adrenal gland using neuroimmunohistochemical markers. Original data on the innervation of the rat Wistar (n = 8) adrenal cortex and medulla were obtained using immunohistochemical detection of the PGP 9.5 protein, synaptophysin, tyrosine hydroxylase, peripherin and serotonin. It was established that all zones of the cortex (glomerular, bundle, and reticular) are innervated by nerve fibers of various neurotransmitter identity. In the cortex, the innervation of the glomerular zone is most pronounced. A thick terminal plexus of varicose axons around islets of endocrinocytes, arterioles and nerve cells was detected in this zone. Cholinergic nerve structures (plexus of preterminal nerve fibers and the terminal synaptic network, which consists of varicose parasympathetic axons located around groups of neuroendocrine cells and sinusoidal capillaries) prevail in the medulla. Parasympathetic and sympathetic intramural ganglia were found in the medulla. Chromaffin cells immunoreactive to various catecholamines and serotonin were found in the adrenal medulla. It was assumed that different sources of sympathetic innervation of the organ are present. These are the medulla's own neurons and sympathetic trunk neurons. Such innervation is important for the regulation of local blood circulation.The results obtained in this study can be used both in scientific research and in the diagnosis of adrenal diseases.

Published

2020

41. Association of cochlear outer hair cell - type II spiral ganglion afferents with protection from noise-induced hearing loss

Author

Kristina E. Parley, Georg von Jonquieres, Allen F. Ryan, Jeremy L. Pinyon, Jean-Pierre Julien, Chamini J. Perera, Gary D. Housley, Jennie M. E. Cederholm, and David K. Ryugo

Subjects

Chemistry, Hearing loss, Efferent, Stimulation, Peripherin, medicine.disease, medicine.anatomical_structure, otorhinolaryngologic diseases, medicine, sense organs, Hair cell, Brainstem, medicine.symptom, Neuroscience, Spiral ganglion, Noise-induced hearing loss

Abstract

The medial olivocochlear (MOC) efferent feedback circuit projecting to the cochlear outer hair cells (OHCs) confers protection from noise-induced hearing loss and is generally thought to be driven by inner hair cell (IHC) - type I spiral ganglion afferent (SGN) input. Knockout of the Prph gene (PrphKO) encoding the peripherin type III intermediate filament disrupted the OHC - type II SGN innervation and virtually eliminated MOC – mediated contralateral suppression from noise delivered to the opposite ear, measured as a reduction in cubic distortion product otoacoustic emissions. Electrical stimulation of the MOC pathway elicited contralateral suppression indistinguishable between wildtype (WT) and PrphKO mice, indicating that the loss of contralateral suppression was not due to disruption of the efferent arm of the circuit; IHC – type I SGN input was also normal, based on auditory brainstem responses. High-intensity, broadband noise (108 dB SPL, 1 hour) produced permanent hearing loss in PrphKO mice, but not in WT littermates. These findings associate OHC-type II input with MOC efferent - based otoprotection at loud sound levels.

Published

2021

42. PA6 Stromal Cell Co-Culture Enhances SH-SY5Y and VSC4.1 Neuroblastoma Differentiation to Mature Phenotypes.

Author

Ferguson, Ross and Subramanian, Vasanta

Subjects

*NEUROBLASTOMA, *STROMAL cells, *CELL culture, *CELL lines, *PHENOTYPES, *NEURODEGENERATION, *NEUROSCIENCES, *CANCER cell differentiation

Abstract

Neuroblastoma cell lines such as SH-SY5Y have been used for modelling neurodegenerative diseases and for studying basic mechanisms in neuroscience. Since neuroblastoma cells proliferate and generally do not express markers of mature or functional neurons, we exploited a co-culture system with the stromal cell line PA6 to better induce differentiation to a more physiologically relevant status. We found that co-culture of the neuroblastoma cell lines in the presence of neural inducers such retinoic acid was able to generate a high proportion of quiescent neurons with very long neurites expressing differentiation markers. The co-culture system additionally cuts short the time taken to produce a more mature phenotype. We also show the application of this system to study proteins implicated in motor neuron disease. [ABSTRACT FROM AUTHOR]

Published

2016

43. Abstract P5-07-09: Modeling taxane-induced peripheral neuropathy ex vivo using patient-derived neurons

Author

Bryan P. Schneider, Yucheng Xiao, Xi Wu, Fei Shen, Santosh Philips, Jill C. Fehrenbacher, Casey Bales, Theodore R. Cummins, Erica Cantor, Geneva Cunningham, and Guanglong Jiang

Subjects

Homeobox protein NANOG, Cancer Research, education.field_of_study, Population, Peripherin, Biology, Sensory neuron, medicine.anatomical_structure, Oncology, SOX2, medicine, Cancer research, Neural cell adhesion molecule, education, Induced pluripotent stem cell, Ex vivo

Abstract

Background: Taxane-induced peripheral neuropathy (TIPN) is the most devastating survivorship issue for patients receiving therapy. Dose reductions due to TIPN in the curative setting lead to inferior outcomes for African American patients, as prior research has shown that this group is more susceptible to developing severe neuropathy. The mechanistic underpinnings of TIPN, however, have not been entirely elucidated. While it would be appealing to use primary tissue to study the development of TIPN, procuring nerves from patients is not realistically feasible, as nerve biopsies are painful and may result in permanent damage. Therefore, our laboratory has investigated paclitaxel-induced neuronal morphological and molecular changes using an ex vivo model of human-induced pluripotent stem cell (iPSC)-derived neurons.Methods: iPSCs are undifferentiated and endlessly dividing cells that can be generated from a patient’s somatic cells, such as peripheral blood mononuclear cells (PBMCs). We successfully reprogrammed PBMCs into iPSCs using the Erythroid Progenitor Reprograming Kit (STEMCell TechnologiesTM); pluripotency was verified by flow cytometry analysis. iPSCs were then induced into neurons using a differentiation protocol that bypasses the neural progenitor stage and uses selected small-molecule modulators of key signaling pathways (SMAD, Notch, FGFR1 inhibition and Wnt activation). Results: Flow cytometry analysis revealed expression of core pluripotency transcription factors Nanog, Oct3/4 and Sox2 in iPSCs overlaps with commercially purchased pluripotent cell line UCSD064i-20-2. Trilineage differentiation of iPSCs was confirmed with immunofluorescent imaging with germ-layer-specific markers; Sox17 and ExoA2 for ectoderm, Nestin and Pax6 for mesoderm, and Ncam and Brachyury for endoderm. Sensory neuron markers, β-III tubulin and Peripherin were applied to stain the cells for the maturity of iPSC-derived neurons. Patch-clamp electrophysiology and calcitonin gene-related peptide (CGRP) release data supported functionality of the induced neurons and provided insight into the timing for which downstream assays could be performed (week 4 post-induction). We have also performed a cell viability assay and fluorescence-activated cell sorting (FACS) using four cell-surface markers (CD184, CD44, CD15, and CD24) to select a neuronal population. At least 70% of the cells were viable in the isolated neuron population. Conclusion: We have found that these iPSC-derived neurons recapitulate mature neuronal phenotypes and demonstrate functionality. Thus, this represents a patient derived ex vivo neuronal model to investigate the molecular mechanisms of clinical TIPN. Citation Format: Geneva Cunningham, Erica Cantor, Xi Wu, Fei Shen, Guanglong Jiang, Santosh Philips, Casey Bales, Yucheng Xiao, Theodore R. Cummins, Jill C. Fehrenbacher, Bryan P. Schneider. Modeling taxane-induced peripheral neuropathy ex vivo using patient-derived neurons [abstract]. In: Proceedings of the 2019 San Antonio Breast Cancer Symposium; 2019 Dec 10-14; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2020;80(4 Suppl):Abstract nr P5-07-09.

Published

2020

44. Peripherin is not a contributing factor to motor neuron disease in a mouse model of amyotrophic lateral sclerosis caused by mutant superoxide dismutase

Author

Roxanne C Larivière, Jean-Martin Beaulieu, Minh Dang Nguyen, and Jean-Pierre Julien

Subjects

Amyotrophic lateral sclerosis, Superoxide dismutase 1, SOD, Intermediate filament, Peripherin, Transgenic mice, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Peripherin is a type III intermediate filament protein detected in axonal spheroids associated with amyotrophic lateral sclerosis (ALS). The overexpression of peripherin induces degeneration of spinal motor neurons during aging in transgenic mice and in cultured neuronal cells derived from peripherin transgenic embryos. Here, we investigated whether peripherin is a contributor of pathogenesis in mice overexpressing a mutant superoxide dismutase 1 (SOD1G37R) gene linked to familial ALS. This was done by the generation and analysis of SOD1G37R mice that either overexpress a peripherin transgene (G37R;TgPer mice) or lack the endogenous peripherin gene (G37R;Per−/− mice). Surprisingly, upregulation or suppression of peripherin expression had no effects on disease onset, mortality, and loss of motor neurons in SOD1G37R mice. These results provide compelling evidence that peripherin is not a key contributor of motor neuron degeneration associated with toxicity of mutant SOD1.

Published

2003

45. Increased levels of miR-124 in human dental pulp stem cells alter the expression of neural markers

Author

Zahra Pourteymourfard-Tabrizi, Effat Farrokhi, Morteza Hashemzadeh Chaleshtori, Mohammad-Saeid Jami, and Ameneh Mehri-Ghahfarrokhi

Subjects

Population, human dental pulp stem cells, hDPSCs, Biology, Nestin, 03 medical and health sciences, 0302 clinical medicine, SOX2, Dental pulp stem cells, basic fibroblast growth factor, bFGF, neurotrophin-3, NT3, bone morphogenetic protein 4, BMP4, 030223 otorhinolaryngology, education, Progenitor, education.field_of_study, sonic hedgehog, SHH, Neural crest, brain derived neurotrophic factor, BDNF, Peripherin, Transfection, lcsh:Otorhinolaryngology, lcsh:RF1-547, miR-124, Cell biology, Sensorineural hearing loss, spiral ganglion neurons, SGNs, quantitative reverse transcription-PCR, qRT-PCR, Otorhinolaryngology, embryonic structures, bovin serum albumin, BSA, epidermal growth factor, EGF, Spiral ganglion neurons, DPSCs, 030217 neurology & neurosurgery, Research Article

Abstract

Auditory neuropathy is the particular form of deafness in humans which cannot be treated by replacement therapy. Human dental pulp stem cells (hDPSCs) are derived from an ectomesenchymal neural crest cell population. Therefore, they possess a promising capacity for neuronal differentiation and repair. miR-124, a key regulator of neuronal development in the inner ear, is expressed at high levels in auditory and vestibular neurons. Here, we evaluated the possible effect of miR-124 in alteration of neural protein markers expression. Using quantitative reverse transcription-PCR (qRT-PCR) analyses and immunofluorescence staining, we studied the expression patterns of neural progenitor markers (Nestin, NOTCH1, and SOX2) and neural markers (β-tubulin III, GATA-3, and peripherin) upon transfection of hDPSCs with miR-124. The qRT-PCR results showed that Nestin was upregulated 6 h post-transfection. In contrast, Nestin expression exhibited a decreasing trend 24 h and 48 h post-transfection. Higher levels of β-tubulin III, 6 h and 16 h post transfection in RNA level as compared with control cells, were determined in transfected DPSCs. However, β-tubulin-III expression decreased 48 h post-transfection. The immunoflourescence results indicated that transfection of hDPSCs with miR-124, only affected Nestin among the studied neural progenitor and neural marker expression in protein level. Keywords: Sensorineural hearing loss, miR-124, Spiral ganglion neurons, Nestin, DPSCs

Published

2019

46. Regeneration of Neural Networks in Immature Teeth with Non-Vital Pulp Following a Novel Regenerative Procedure

Author

Sahar Bukhary, Maha M. F. Mounir, and Fatma M. Rashed

Subjects

Regenerative endodontics, Sox2, Calcitonin gene-related peptide, Biology, Glial fibrillary acidic protein, Stem cell homing, Dental pulp necrosis, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, SOX2, Apical periodontitis, 030304 developmental biology, 0303 health sciences, Amelogenin, Peripherin, Cell Biology, Cell biology, stomatognathic diseases, Odontoblast, biology.protein, Pulp (tooth), Original Article, sense organs, Stem cell, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Background and objectives Recombinant amelogenin protein (RAP) was reported to induce soft-tissue regeneration in canine infected endodontically treated permanent teeth with open apices. To characterize identities of the cells found in the RAP regenerated tissues compared to authentic pulp by identifying: 1) stem cells by their expression of Sox2; 2) nerve fibers by distribution of the axonal marker peripherin; 3) axons by their expression of calcitonin gene-related peptide (CGRP); 4) the presence of astrocytes expressing glial fibrillary acidic proteins (GFAP). Methods A total of 240 open-apex root canals in dogs were used. After establishment of oral contamination to the pulp, the canals were cleaned, irrigated, and 120 canals filled with RAP, and the other 120 with calcium hydroxide. Results After 1, 3, and 6 months, teeth were recovered for immune-detection of protein markers associated with native pulp tissues. Regenerated pulp and apical papilla of RAP group revealed an abundance of stem cells showing intense immunoreactivity to Sox2 antibody, immunoreactivity of peripherin mainly in the A-fibers of the odontoblast layer and immunoreactivity to CGRP fibers in the central pulp region indicative of C-fibres. GFAP immunoreactivity was observed near the odontoblastic, cell-rich regions and throughout the regenerated pulp. Conclusions RAP induces pulp regeneration following regenerative endodontic procedures with cells identity by gene expression demonstrating a distribution pattern similar to the authentic pulp innervation. A- and C-fibers, as well as GFAP specific to astrocytic differentiation, are recognized. The origin of the regenerated neural networks may be derived from the Sox2 identified stem cells within the apical papilla.

Published

2019

47. iTRAQ-based proteomic analysis discovers potential biomarkers of diffuse axonal injury in rats

Author

Yiwu Zhou, Wenhe Li, Lin Zhang, Fang Tong, Guanglong He, Yue Liang, Shuquan Zhao, Weisheng Huang, and Longlong Zhu

Subjects

Proteomics, 0301 basic medicine, Pathology, medicine.medical_specialty, Cytoskeleton organization, Traumatic brain injury, Diffuse Axonal Injury, Biology, Corpus Callosum, Rats, Sprague-Dawley, Pathogenesis, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Tandem Mass Spectrometry, Brain Injuries, Traumatic, medicine, Animals, General Neuroscience, Diffuse axonal injury, Brain, Computational Biology, Peripherin, Prognosis, medicine.disease, Axons, Rats, 030104 developmental biology, chemistry, Calsenilin, Immunohistochemistry, Female, Biomarkers, 030217 neurology & neurosurgery, Chromatography, Liquid

Abstract

Diffuse axonal injury (DAI) is one of the most common and severe pathological consequences of traumatic brain injury (TBI). The molecular mechanism of DAI is highly complicated and still elusive, yet a clear understanding is crucial for the diagnosis, treatment, and prognosis of DAI. In our study, we used rats to establish a DAI model and applied isobaric tags for relative and absolute quantitation (iTRAQ) coupled with liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis to identify differentially expressed proteins (DEPs) in the corpus callosum. As a result, a total of 514 proteins showed differential expression between the injury groups and the control. Among these DEPs, 14 common DEPs were present at all seven time points postinjury (1, 3, 6, 12, 24, 48, and 72 h). Next, bioinformatic analysis was performed to elucidate the pathogenesis of DAI, which was found to possibly involve calcium ion-regulatory proteins (e.g., calsenilin and ryanodine receptor 2), cytoskeleton organization (e.g., peripherin, NFL, NFM, and NFH), apoptotic processes (e.g., calsenilin and protein kinase C delta type), and inflammatory response proteins (e.g., complement C3 and C-reactive protein). Moreover, peripherin and calsenilin were successfully confirmed by western blotting to be significantly upregulated during DAI, and immunohistochemical (IHC) analysis revealed that their expression increased and could be observed in axons after injury, thus indicating their potential as DAI biomarkers. Our experiments not only provide insight into the molecular mechanisms of axonal injury in rats during DAI but also give clinicians and pathologists important reference data for the diagnosis of DAI. Our findings may expand the list of DAI biomarkers and improve the postmortem diagnostic rate of DAI.

Published

2019

48. Charcot–Marie–Tooth disease Type 2E/1F mutant neurofilament proteins assemble into neurofilaments

Author

Anthony Brown, Atsuko Uchida, and Elizabeth J. Stone

Subjects

0303 health sciences, Neurofilament, Protein subunit, Mutant, Endogeny, Peripherin, Cell Biology, Protein aggregation, Biology, Molecular biology, Article, 03 medical and health sciences, 0302 clinical medicine, Charcot-Marie-Tooth Disease, Neurofilament Proteins, Structural Biology, In vivo, Mutation, Axoplasmic transport, Humans, Mutant Proteins, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Charcot-Marie-Tooth disease Type 2E/1F (CMT2E/1F) is a peripheral neuropathy caused by mutations in neurofilament protein L (NFL), which is one of five neurofilament subunit proteins that co-assemble to form neurofilaments in vivo. Prior studies on cultured cells have shown that CMT2E/1F mutations disrupt neurofilament assembly and lead to protein aggregation, suggesting a possible disease mechanism. However, electron microscopy of axons in peripheral nerve biopsies from patients has revealed accumulations of neurofilament polymers of normal appearance and no evidence of protein aggregates. To reconcile these observations, we reexamined the assembly of seven CMT2E/1F NFL mutants in cultured cells. None of the mutants assembled into homopolymers in SW13vim- cells, but P8R, P22S, L268/269P, and P440/441L mutant NFL assembled into heteropolymers in the presence of neurofilament protein M (NFM) alone, and N98S, Q332/333P, and E396/397K mutant NFL assembled in the presence of NFM and peripherin. P8R, P22S, N98S, L268/269P, E396/397K, and P440/441L mutant NFL co-assembled into neurofilaments with endogenous NFL, NFM, and α-internexin in cultured neurons, although the N98S and E396/397K mutants showed reduced filament incorporation, and the Q332/333P mutant showed limited incorporation. We conclude that all the mutants are capable of assembling into neurofilaments, but for some of the mutants this was dependent on the identity of the other neurofilament proteins available for co-assembly, and most likely also their relative expression level. Thus, caution should be exercised when drawing conclusions about the assembly capacity of CMT2E/1F mutants based on transient transfections in cultured cells.

Published

2019

49. A schizophrenia associated CMYA5 allele displays differential binding with desmin

Author

Rita Shiang, Xiangning Chen, Francisco J. Naya, and Anting Hsiung

Subjects

Male, Candidate gene, Intermediate Filaments, Peripherins, Muscle Proteins, Vimentin, macromolecular substances, Polymorphism, Single Nucleotide, Article, Desmin, Gene product, Mice, 03 medical and health sciences, 0302 clinical medicine, Yeasts, Animals, Cytoskeleton, Intermediate filament, Alleles, Biological Psychiatry, biology, Chemistry, Intracellular Signaling Peptides and Proteins, Brain, Peripherin, Surface Plasmon Resonance, 030227 psychiatry, Cell biology, Mice, Inbred C57BL, Psychiatry and Mental health, Cytoplasm, Schizophrenia, biology.protein, Female, 030217 neurology & neurosurgery, Protein Binding

Abstract

CMYA5 is a candidate gene for schizophrenia because of the genetic association of variant rs10043986 (C > T) to this severe mental disorder. Studies of CMYA5 and its gene product, myospryn, in the brain and neuronal cells have not been previously reported. The SNP rs10043986 changes the 4,063rd amino acid from Pro to Leu, which is likely to alter protein function. To understand its potential role in the brain, we examined the neuronal expression of myospryn and its binding partner, desmin, an intermediate filament (IF) protein, and investigated how the two alleles of myospryn affect its binding to desmin. Myospryn and desmin are shown to be expressed in the brain and myospryn is shown to localize to the cytoplasm and nucleus of myoblast, neuroblastoma, and glioblastoma cell lines. Peripherin and vimentin, known brain IF proteins, have high protein similarity to desmin but were found not to interact with myospryn using yeast two-hybrid (Y2H). Using a quantitative Y2H assay and surface plasmon resonance, the T allele (Leu) of rs10043986 was found to have stronger binding to desmin than the C allele (Pro). Based on findings described in this report, we hypothesize that the interaction between myospryn to IF provides structural support and efficient rearrangement of the cytoskeleton network during early neuritogenesis.

Published

2019

50. Phosphorylation of extracellular signal-regulated kinase 1/2 in subepidermal nerve fibers mediates hyperalgesia following diabetic peripheral neuropathy

Author

Miau-Hwa Ko, Chyn-Tair Lan, Li-You Chen, Chiung-Hui Liu, Wen-Chieh Liao, and To-Jung Tseng

Subjects

Male, Substance P, Pharmacology, Calcitonin gene-related peptide, Toxicology, TRPV, Streptozocin, Rats, Sprague-Dawley, 03 medical and health sciences, chemistry.chemical_compound, Nerve Fibers, 0302 clinical medicine, Diabetic Neuropathies, medicine, Animals, Phosphorylation, 030304 developmental biology, Mitogen-Activated Protein Kinase 1, 0303 health sciences, Neurogenic inflammation, Mitogen-Activated Protein Kinase 3, business.industry, General Neuroscience, Peripherin, medicine.disease, Allodynia, Peripheral neuropathy, chemistry, Hyperalgesia, medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Peripheral neuropathy, a chronic complication of diabetes mellitus (DM), is often accompanied by the onset of severe pain symptoms that affect quality of life. However, the underlying mechanisms remain elusive. In the present study, we used Sprague–Dawley rats to establish a rodent model of the human type 1 DM by a single intraperitoneal (i.p.) injection with streptozotocin (STZ) (60 mg/kg). Hypersensitivity, including hyperalgesia and allodynia, developed in the STZ-induced diabetic rats. Cutaneous innervation exhibited STZ-induced reductions of protein gene product 9.5-, peripherin-, and neurofilament 200-immunoreactivity (IR) subepidermal nerve fibers (SENFs). Moreover, the decreases of substance P (SP)- and calcitonin gene-related peptide (CGRP)-IR SENFs were distinct gathered from the results of extracellular signal-regulated kinase 1 and 2 (ERK1/2)- and phosphorylated ERK1/2 (pERK1/2)-IR SENFs in STZ-induced diabetic rats. Double immunofluorescence studies demonstrated that STZ-induced pERK1/2-IR was largely increased in SENFs where only a small portion was colocalized with SP- or CGRP-IR. By an intraplantar (i. pl.) injection with a MEK inhibitor, U0126 (1,4-Diamino-2,3-dicyano-1,4-bis[2-aminophenylthio]butadiene), hyperalgesia was attenuated in a dose-responsive manner. Botulinum toxin serotype A had dose-dependent analgesic effects on STZ-induced hyperalgesia and allodynia, which exhibited equivalent results as the efficacy of transient receptor potential vanilloid (TRPV) channel antagonists. Morphological evidence further confirmed that STZ-induced SP-, CGRP- and pERK1/2-IR were reduced in SENFs after pharmacological interventions. From the results obtained in this study, it is suggested that increases of pERK1/2 in SENFs may participate in the modulation of TRPV channel-mediated neurogenic inflammation that triggers hyperalgesia in STZ-induced diabetic rats. Therefore, ERK1/2 provides a potential therapeutic target and efficient pharmacological strategies to address hyperglycemia-induced neurotoxicity.

Published

2019