Showing total 127 results

1. Status and perspectives of neuroprotective therapies in glaucoma: the European Glaucoma Society White Paper.

Author

Tamm ER, Schmetterer L, and Grehn F

Subjects

Apoptosis, Biomarkers metabolism, Congresses as Topic, Disease Progression, Europe, Glaucoma diagnosis, Glaucoma pathology, Humans, Optics and Photonics, Research Report, Retinal Ganglion Cells pathology, Stem Cell Transplantation, Translational Research, Biomedical, Glaucoma drug therapy, Neuroprotective Agents therapeutic use, Societies, Medical

Abstract

Glaucoma, a chronic progressive neuropathy and the most frequent cause of irreversible blindness worldwide, is commonly treated by medication or surgery aimed at lowering intraocular pressure. In view of the limited therapeutic options, the European Glaucoma Society (EGS) sponsored two Think Tank Meetings with the goal of assessing the current status and the overall perspectives for neuroprotective treatment strategies in glaucoma. The results of the meetings are summarized in this EGS White Paper.

Published

2013

2. Vaccines for prion diseases: a realistic goal?

Author

Napper S and Schatzl HM

Subjects

Animals, Cattle, Humans, Sheep, Goals, Goats, Prion Diseases prevention & control, Prion Diseases metabolism, Prions metabolism, Encephalopathy, Bovine Spongiform metabolism, Wasting Disease, Chronic prevention & control, Wasting Disease, Chronic metabolism, Deer metabolism, Vaccines

Abstract

Prion diseases are fatal infectious neurodegenerative disorders and prototypic conformational diseases, caused by the conformational conversion of the normal cellular prion protein (PrP C ) into the pathological PrP Sc isoform. Examples are scrapie in sheep and goat, bovine spongiform encephalopathy (BSE) in cattle, chronic wasting disease (CWD) in cervids, and Creutzfeldt-Jacob disease (CJD) in humans. There are no therapies available, and animal prion diseases like BSE and CWD can negatively affect the economy, ecology, animal health, and possibly human health. BSE is a confirmed threat to human health, and mounting evidence supports the zoonotic potential of CWD. CWD is continuously expanding in North America in numbers and distribution and was recently identified in Scandinavian countries. CWD is the only prion disease occurring both in wild and farmed animals, which, together with extensive shedding of infectivity into the environment, impedes containment strategies. There is currently a strong push to develop vaccines against CWD, including ones that can be used in wildlife. The immune system does not develop a bona fide immune response against prion infection, as PrP C and PrP Sc share an identical protein primary structure, and prions seem not to represent a trigger for immune responses. This asks for alternative vaccine strategies, which focus on PrP C -directed self-antibodies or exposure of disease-specific structures and epitopes. Several groups have established a proof-of-concept that such vaccine candidates can induce some levels of protective immunity in cervid and rodent models without inducing unwanted side effects. This review will highlight the most recent developments and discuss progress and challenges remaining., (© 2023. The Author(s).)

Published

2023

3. Characterization of intermediate filaments and their structural organization during epithelium formation in pigmented epithelial cells of the retina in vitro.

Author

Owaribe K, Sugino H, and Masuda H

Subjects

Actin Cytoskeleton ultrastructure, Actins analysis, Animals, Cell Differentiation, Cells, Cultured, Chick Embryo, Collodion, Cytoskeleton ultrastructure, Demecolcine pharmacology, Electrophoresis, Polyacrylamide Gel, Fluorescent Antibody Technique, Guinea Pigs, Intermediate Filaments analysis, Intermediate Filaments ultrastructure, Microscopy, Electron, Paper, Pigment Epithelium of Eye embryology, Pigment Epithelium of Eye physiology, Rabbits, Vimentin analysis, Cytoskeleton physiology, Intermediate Filaments physiology, Pigment Epithelium of Eye ultrastructure, Retina cytology

Abstract

Retinal pigmented epithelial cells of chicken have circumferential microfilament bundles (CMBs) at the zonula adherens region. Isolated CMBs are polygons filled with a meshwork composed primarily of intermediate filaments; they show three major components of 200 000, 55 000, and 42 000 daltons in SDS-gel electrophoresis. Here we have characterized the 55 000-dalton protein immunochemically and ultrastructurally. Immunoblotting and immunofluorescence microscopy have shown that the 55 000-dalton protein is an intermediate filament protein, vimentin. Vimentin filaments changed their distribution during differentiation of pigmented epithelial cells in culture. The protein in the elongated cells showed a fibroblast-type pattern of intermediate filaments. During epithelium formation, the filaments were uniformly distributed and formed a finer meshwork at the apical level. In pigmented epithelial cells that differentiated and matured in culture, vimentin and actin exhibited their characteristic behavior after treatment with colcemid. In the central to basal region of the cell, intermediate filaments formed thick perinuclear bundles. In the apical region, however, intermediate filaments changed in organization from a nonpolarized meshwork to a polarized bundle-like structure. Simultaneously, new actin bundles were formed, running parallel to the intermediate filaments. This suggests that there is some interaction between microfilaments and intermediate filaments in the apical region of these cells.

Published

1986

4. Immunocytochemical localization of a rhodopsin-like protein in the lipochondria in photosensitive neurons of Aplysia californica.

Author

Robles LJ, Breneman JW, Anderson EO, Nottoli VA, and Kegler LL

Subjects

Animals, Antibodies, Antibody Specificity, Central Nervous System ultrastructure, Collodion, Decapodiformes immunology, Electrophoresis, Polyacrylamide Gel, Eye Proteins immunology, Fluorescent Antibody Technique, Histocytochemistry, Immunoenzyme Techniques, Inclusion Bodies analysis, Lipids analysis, Microscopy, Electron, Paper, Rhodopsin physiology, Rod Opsins, Aplysia cytology, Neurons ultrastructure, Retinal Pigments isolation & purification, Rhodopsin isolation & purification

Abstract

Polyclonal antibodies directed against squid opsin were used in immunocytochemical and immunoblot experiments to identify a rhodopsin-like protein in photosensitive neurons of Aplysia. Aldehyde-fixed abdominal and cerebral ganglia were embedded in paraffin for peroxidase anti-peroxidase analysis or used whole for immunofluorescence studies. Ganglia were embedded in Lowicryl K4M for electron-microscope immunocytochemistry. In both the cerebral and abdominal ganglia, light-microscope immunocytochemical results showed reaction product deposited around the neuronal cell periphery corresponding in position to the lipochondria. In the abdominal ganglion, the giant cell R2, located in the right rostral quarter, and neurons in the right caudal quarter were consistently labeled with anti-opsin. Electron-microscopic studies demonstrated ferritin-labeling of the lipochondria in R2 and other immunoreactive neurons. Immunoblot analysis of R2 and cerebral neuron extracts was used to identify two prominent immunoreactive protein bands at 85 000 and 67 500 molecular weight.

Published

1986

5. Surface acoustic wave (SAW) techniques in tissue engineering.

Author

Jiang D, Liu J, Pan Y, Zhuang L, and Wang P

Subjects

Animals, Equipment Design, Humans, Sound, Spheroids, Cellular cytology, Stem Cells cytology, Tissue Engineering methods, Lab-On-A-Chip Devices, Tissue Engineering instrumentation

Abstract

Recently, the introduction of surface acoustic wave (SAW) technique for microfluidics has drawn a lot of attention. The pattern and mutual communication in cell layers, tissues, and organs play a critical role in tissue homeostasis and regeneration and may contribute to disease occurrence and progression. Tissue engineering aims to repair and regenerate damaged organs, depending on biomimetic scaffolds and advanced fabrication technology. However, traditional bioengineering synthesis approaches are time-consuming, heterogeneous, and unmanageable. It is hard to pattern cells in scaffolds effectively with no impact on cell viability and function. Here, we summarize a biocompatible, easily available, label-free, and non-invasive tool, surface acoustic wave (SAW) technique, which is getting a lot of attention in tissue engineering. SAW technique can realize accurate sorting, manipulation, and cells' pattern and rapid formation of spheroids. By integrating several SAW devices onto lab-on-a-chip platforms, tissue engineering lab-on-a-chip system was proposed. To the best of our knowledge, this is the first report to summarize the application of this novel technique in the field of tissue engineering., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

6. Human olfactory dysfunction: causes and consequences.

Author

Schäfer L, Schriever VA, and Croy I

Subjects

Humans, Olfaction Disorders diagnosis, Olfaction Disorders etiology, Olfaction Disorders therapy

Abstract

The sense of smell essentially contributes to social communication, guides nutrition behaviour and elicits avoidance towards environmental hazards. Olfactory smell impairment may hence entail severe consequences for affected individuals. Compared with sensory loss in other modalities, reduced olfactory function is often unnoticed by those affected and diagnosed late. Those patients seeking help frequently suffer from long-term impairments resulting in reduced well-being and quality of life. The current review provides an overview of aetiology, prevalence and specifics of diagnostics in acquired and congenital olfactory loss and focusses on short- and long-term consequences. Compensation strategies are elaborated, and treatment options are mentioned. Individual characteristics associated with the development of serious mental health impairment are discussed in order to help practitioners identifying populations at risk.

Published

2021

7. From seed to flower: blossoming of microglia in development and brain repair.

Author

Neckles VN and Feliciano DM

Subjects

Cell Differentiation, Flowers, Neurons, Brain metabolism, Microglia pathology

Abstract

Physiological functions require coordination of processes between diverse organs, tissues, and cells. This integrative view of science has reemerged complementary to the reductionist philosophy of studying individual cell types. An integrative approach has proven particularly powerful within the field of neuroscience where, intermingled among the most numerous neural cell types of the brain, are immune cells called microglia. Microglia act as a line of defense in the CNS by phagocytizing harmful pathogens and cellular debris and by releasing a variety of factors that mediate immune responses. However, microglia are also appreciated as critical mediators of neurophysiology making them a desired target to rectify neuropathological states. The goal of this review is to discuss microglia ontogenesis, referred to as microgliogenesis, a term that encompasses the events that drive the production, differentiation, migration, and maturation of microglia and opportunities to target microglia for brain repair., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

8. Anatomical organization of the cerebrum of the desert locust Schistocerca gregaria.

Author

von Hadeln J, Althaus V, Häger L, and Homberg U

Subjects

Animals, Female, Imaging, Three-Dimensional, Mushroom Bodies anatomy & histology, Neuropil metabolism, Cerebrum anatomy & histology, Desert Climate, Grasshoppers anatomy & histology

Abstract

The desert locust Schistocerca gregaria is a major agricultural pest in North Africa and the Middle East. As such, it has been intensely studied, in particular with respect to population dynamics, sensory processing, feeding behavior flight and locomotor control, migratory behavior, and its neuroendocrine system. Being a long-range migratory species, neural mechanisms underlying sky compass orientation have been studied in detail. To further understand neuronal interactions in the brain of the locust, a deeper understanding of brain organization in this insect has become essential. As a follow-up of a previous study illustrating the layout of the locust brain (Kurylas et al. in J Comp Neurol 484:206-223, 2008), we analyze the cerebrum, the central brain minus gnathal ganglia, of the desert locust in more detail and provide a digital three-dimensional atlas of 48 distinguishable brain compartments and 7 major fiber tracts and commissures as a basis for future functional studies. Neuropils were three-dimensionally reconstructed from synapsin-immunostained whole mount brains. Neuropil composition and their internal organization were analyzed and compared to the neuropils of the fruit fly Drosophila melanogaster. Most brain areas have counterparts in Drosophila. Some neuropils recognized in the locust, however, have not been identified in the fly while certain areas in the fly could not be distinguished in the locust. This study paves the way for more detailed anatomical descriptions of neuronal connections and neuronal cell types in the locust brain, facilitates interspecies comparisons among insect brains and points out possible evolutionary differences in brain organization between hemi- and holometabolous insects.

Published

2018

9. Joubert syndrome-derived induced pluripotent stem cells show altered neuronal differentiation in vitro.

Author

De Mori R, Tardivo S, Pollara L, Giliani SC, Ali E, Giordano L, Leuzzi V, Fischetto R, Gener B, Diprima S, Morelli MJ, Monti MC, Sottile V, and Valente EM

Subjects

Humans, Male, Female, Mutation genetics, Cilia metabolism, Induced Pluripotent Stem Cells metabolism, Induced Pluripotent Stem Cells cytology, Cell Differentiation, Eye Abnormalities genetics, Eye Abnormalities pathology, Cerebellum abnormalities, Cerebellum pathology, Cerebellum metabolism, Neurons metabolism, Abnormalities, Multiple genetics, Abnormalities, Multiple pathology, Retina abnormalities, Retina metabolism, Kidney Diseases, Cystic genetics, Kidney Diseases, Cystic pathology, Kidney Diseases, Cystic metabolism

Abstract

Joubert syndrome (JS) is a recessively inherited congenital ataxia characterized by hypotonia, psychomotor delay, abnormal ocular movements, intellectual disability, and a peculiar cerebellar and brainstem malformation, the "molar tooth sign." Over 40 causative genes have been reported, all encoding for proteins implicated in the structure or functioning of the primary cilium, a subcellular organelle widely present in embryonic and adult tissues. In this paper, we developed an in vitro neuronal differentiation model using patient-derived induced pluripotent stem cells (iPSCs), to evaluate possible neurodevelopmental defects in JS. To this end, iPSCs from four JS patients harboring mutations in distinct JS genes (AHI1, CPLANE1, TMEM67, and CC2D2A) were differentiated alongside healthy control cells to obtain mid-hindbrain precursors and cerebellar granule cells. Differentiation was monitored over 31 days through the detection of lineage-specific marker expression by qRT-PCR, immunofluorescence, and transcriptomics analysis. All JS patient-derived iPSCs, regardless of the mutant gene, showed a similar impairment to differentiate into mid-hindbrain and cerebellar granule cells when compared to healthy controls. In addition, analysis of primary cilium count and morphology showed notable ciliary defects in all differentiating JS patient-derived iPSCs compared to controls. These results confirm that patient-derived iPSCs are an accessible and relevant in vitro model to analyze cellular phenotypes connected to the presence of JS gene mutations in a neuronal context., (© 2024. The Author(s).)

Published

2024

10. Immunohistochemical characterisation of the adult Nothobranchius furzeri intestine.

Author

Borgonovo J, Allende-Castro C, Medinas DB, Cárdenas D, Cuevas MP, Hetz C, and Concha ML

Subjects

Animals, Mammals, Aging, Intestines

Abstract

Nothobranchius furzeri is emerging as an exciting vertebrate organism in the field of biomedicine, developmental biology and ecotoxicology research. Its short generation time, compressed lifespan and accelerated ageing make it a versatile model for longitudinal studies with high traceability. Although in recent years the use of this model has increased enormously, there is still little information on the anatomy, morphology and histology of its main organs. In this paper, we present a description of the digestive system of N. furzeri, with emphasis on the intestine. We note that the general architecture of the intestinal tissue is shared with other vertebrates, and includes a folding mucosa, an outer muscle layer and a myenteric plexus. By immunohistochemical analysis, we reveal that the mucosa harbours the same type of epithelial cells observed in mammals, including enterocytes, goblet cells and enteroendocrine cells, and that the myenteric neurons express neurotransmitters common to other species, such as serotonin, substance P and tyrosine hydroxylase. In addition, we detect the presence of a proliferative compartment at the base of the intestinal folds. The description of the normal intestinal morphology provided here constitutes a baseline information to contrast with tissue alterations in future lines of research assessing pathologies, ageing-related diseases or damage caused by toxic agents., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

11. Tooth-derived stem cells integrated biomaterials for bone and dental tissue engineering.

Author

Vimalraj S and Saravanan S

Subjects

Tissue Engineering methods, Biocompatible Materials pharmacology, Stem Cells, Dental Pulp, Mesenchymal Stem Cells, Tooth

Abstract

Recent years have seen the emergence of tissue engineering strategies as a means to overcome some of the limits of conventional medical treatment. A biomaterial with tailored physio-chemical characteristics is used in this sophisticated method to transport stem cells and growth factors/bioactive substances, or to attract local endogenous cells, enabling new tissue formation. Biomaterials might serve as a biomimetic structure inspired by the natural milieu, assisting the cells in establishing their natural relationships. Such a method would benefit from having ready access to an abundant reservoir of stem cells with strong tissue regeneration capacity, in addition to using biological compatible material to promote new tissue creation. Teeth may have a plethora of self-renewing, multipotent mesenchymal stem cell (MSC) populations. Recent advancements and promising directions for cell transplantation and homing techniques using dental MSCs for tissue regeneration are discussed in this review paper. Overall, this research paints a picture of the present landscape of new approaches to using tooth-derived MSCs in conjunction with biomaterials and bioactive substances for tissue regeneration., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

12. Steps of spermiogenesis in the ostrich (Struthio camelus).

Author

Soley JT, du Plessis L, Sutovsky M, and Sutovsky P

Abstract

Few studies describe the sequence of morphological events that characterize spermiogenesis in birds. In this paper, the clearly observable steps of spermiogenesis are described and illustrated for the first time in a commercially important ratite, the ostrich, based on light microscopy of toluidine blue-stained plastic sections. Findings were supplemented and supported by ultrastructural observations, PNA labeling of acrosome development, and immunocytochemical labeling of isolated spermatogenic cells. Spermiogenesis in the ostrich followed the general pattern described in non-passerine birds. Eight steps were identified based on changes in nuclear shape and contents, positioning of the centriolar complex, and acrosome development. Only two steps could be recognized with certainty during development of the round spermatid which contributed to the fewer steps recorded for the ostrich compared to that described in some other bird species. The only lectin that displayed acrosome reactivity was PNA and only for the first three steps of spermiogenesis. This suggests that organizational and/or compositional changes may occur in the acrosome during development and merits further investigation. Immunological labeling provided additional evidence to support the finding of previous studies that the tip of the nucleus in the ostrich is shaped by the forming acrosome and not by the microtubular manchette. To our knowledge, this is the first complete description of spermiogenesis in ostrich and one of few in any avian species. In addition to comparative reproduction and animal science, this work has implications for evolutionary biology as the reported germ cell features provide a bridge between reptile and ratite-avian spermatogenesis., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

13. Therapeutic development of polymers for prion disease.

Author

Teruya K and Doh-Ura K

Subjects

Animals, Sheep, Prion Proteins, Polymers, Prion Diseases drug therapy, Scrapie, Prions

Abstract

Prion diseases, also known as transmissible spongiform encephalopathies, are caused by the accumulation of abnormal isoforms of the prion protein (scrapie isoform of the prion protein, PrPSc) in the central nervous system. Many compounds with anti-prion activities have been found using in silico screening, in vitro models, persistently prion-infected cell models, and prion-infected rodent models. Some of these compounds include several types of polymers. Although the inhibition or removal of PrPSc production is the main target of therapy, the unique features of prions, namely protein aggregation and assembly accompanied by steric structural transformation, may require different strategies for the development of anti-prion drugs than those for conventional therapeutics targeting enzyme inhibition, agonist ligands, or modulation of signaling. In this paper, we first overview the history of the application of polymers to prion disease research. Next, we describe the characteristics of each type of polymer with anti-prion activity. Finally, we discuss the common features of these polymers. Although drug delivery of these polymers to the brain is a challenge, they are useful not only as leads for therapeutic drugs but also as tools to explore the structure of PrPSc and are indispensable for prion disease research., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

14. Fish collagen for skin wound healing: a systematic review in experimental animal studies.

Author

de Souza A, de Almeida Cruz M, de Araújo TAT, Parisi JR, do Vale GCA, Dos Santos Jorge Sousa K, Ribeiro DA, Granito RN, and Renno ACM

Subjects

Animals, Biocompatible Materials pharmacology, Cattle, Fishes, Skin, Swine, Collagen pharmacology, Wound Healing

Abstract

Collagen extracted from fishes has been appearing as an alternative for commercial porcine and bovine collagen and it has been considered interesting especially for membrane manufacturing in tissue engineering. Despite the positive in vitro effects of fish collagen membranes, there is still no understanding of all the benefits that this natural biomaterial plays in the wound healing process, due to the lack of compilation of the results obtained in animal studies. In this sense, the purpose of this study was to perform a systematic review of the literature to examine the effects of fish collagen membranes for skin wound healing in experimental models of skin wound. The search was carried out according to the orientations of Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA), and the descriptors of the Medical Subject Headings (MeSH) were defined: "fish," collagen," "skin," and "in vivo". A total of 10 articles were retrieved from the databases PubMed and Scopus. After the elegibility analyses, this review covers the different origins of fish collagen reported in the different papers from the beginning of 2015 through the middle of 2021. The results were based mainly on histological analysis and macroscopic evaluation, and fish skin collagen was responsible for improving the wound healing rate and the process of reepithelization and collagen deposition. In conclusion, fish skin collagen has shown positive results in in vivo studies and may be a potential biomaterial in tissue engineering., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

15. Establishment of an immortalized cell line derived from the pupal ovary of Mythimna separata (Lepidoptera: Noctuidae) and identification of the cell source.

Author

Tong Y, Cheng LQ, Li X, Yu XP, Shu RH, Zhang JH, Meng Q, Qin QL, Tang K, Xu JX, and Zhang H

Subjects

Animals, Female, Lepidoptera, Pupa, Cell Line physiology, Ovary physiology

Abstract

Determining the source of primary cells is conductive to enriching sufficient cells with immortal potential thereby improving the success rate of establishing cell lines. However, most of the existing insect cell lines are established by mixing and fragmentation of explants. At present, the origin of cell lines can only be determined according to the cultured tissues, so it is impossible to determine which cell types they come from. In this study, a new cell line designated IOZCAS-Myse-1 was generated from pupal ovaries of the migratory pest Mythimna separata by explant tissues to derive adherent cultures. This paper mainly shows the further descriptive information on the origin of primary cells in the process of ovarian tissue isolation and culture. Phospho-histone H3 antibody-labeled cells with mitotic activity showed that the rapidly developing somatic cells in vivo gradually stopped proliferation when cultured ex vivo. The primary cells dissociated outside the tissue originated from the lumen cells, rather than the germ cells or the follicular epithelium cells. The results suggest that the newly established cell line IOZCAS-Myse-1 had two possible sources. One is the mutation of lumen cells in the vitellarium, and the other is the stem cells with differentiation potential in the germarium of the ovarioles. Moreover, the newly established cell line is sensitive to the infection of Autographa californica multiple nucleopolyhedrovirus, responds to 20-hydroxyecdysone and has weak encapsulation ability. Therefore, the new cell line can be a useful platform for replication of viral insecticides, screening of hormone-based insecticides and immunology research., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

16. BBS4 protein has basal body/ciliary localization in sensory organs but extra-ciliary localization in oligodendrocytes during human development.

Author

Bénardais K, Delfino G, Samama B, Devys D, Antal MC, Ghandour MS, and Boehm N

Subjects

Animals, Disease Models, Animal, Human Development, Humans, Mice, Mice, Inbred C57BL, Mice, Transgenic, Bardet-Biedl Syndrome metabolism, Basal Bodies metabolism, Cilia metabolism, Microtubule-Associated Proteins metabolism, Oligodendroglia metabolism

Abstract

Bardet-Biedl syndrome protein 4 (BBS4) localization has been studied in human embryos/fetuses from Carnegie stage 15 to 37 gestational weeks in neurosensory organs and brain, underlying the major clinical signs of BBS. We observed a correlation between the differentiation of the neurosensory cells (hair cells, photoreceptors, olfactory neurons) and the presence of a punctate BBS4 immunostaining in their apical cytoplasm. In the brain, BBS4 was localized in oligodendrocytes and myelinated tracts. In individual myelinated fibers, BBS4 immunolabelling was discontinuous, predominantly at the periphery of the myelin sheath. BBS4 immunolabelling was confirmed in postnatal developing white matter tracts in mouse as well as in mouse oligodendrocytes cultures. In neuroblasts/neurons, BBS4 was only present in reelin-expressing Cajal-Retzius cells. Our results show that BBS4, a protein of the BBSome, has both basal body/ciliary localization in neurosensory organs but extra-ciliary localization in oligodendrocytes. The presence of BBS4 in developing oligodendrocytes and myelin described in the present paper might attribute a new role to this protein, requiring further investigation in the field of myelin formation., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

17. Cell-based endometrial regeneration: current status and future perspectives.

Author

Keyhanvar N, Zarghami N, Bleisinger N, Hajipour H, Fattahi A, Nouri M, and Dittrich R

Subjects

Adult, Animals, Female, Humans, Endometrium physiopathology, Tissue Engineering methods

Abstract

Endometrial-related disorders including Asherman's syndrome, thin endometrium, pelvic organ prolapse, and cesarean scar pregnancies can be accompanied by different symptoms such as amenorrhea, infertility, abnormal placental implantation and recurrent miscarriage. Different methods have been introduced to overcome these problems such as surgery and hormonal therapy but none of them has shown promising outcomes. On the other hand, the development of novel regenerative therapeutic strategies has opened new avenues for the treatment of endometrial-related deficiencies. In this regard, different types of scaffolds, acellular matrices and also cell therapy with adult or stem cells have been investigated for the treatment of endometrial-related deficiencies. In this paper, we review the current status of cell-based endometrium regeneration using scaffold dependent and scaffold-free methods and future perspectives in this field. Moreover, we discuss the endometrial diseases that can be candidates for cell-based treatments. Also, the cells with the potential for endometrial regeneration are explained.

Published

2021

18. Correction to: endoplasmic reticulum stress may activate NLRP3 inflammasomes via TXNIP in preeclampsia.

Author

Yang Y, Li J, Han TL, Zhou X, Qi H, Baker PN, Zhou W, and Zhang H

Abstract

The authors apologize that in our published paper entitled "Endoplasmic reticulum stress may activate NLRP3 inflammasomes via TXNIP in preeclampsia" Cell and Tissue Research (Published online: 22 October 2019).

Published

2020

19. Novel therapeutic approaches of tissue engineering in male infertility.

Author

Ghanbari E, Khazaei M, Ghahremani-Nasab M, Mehdizadeh A, and Yousefi M

Subjects

Animals, Disease Models, Animal, Humans, Male, Mice, Infertility, Male therapy, Tissue Engineering methods

Abstract

Male reproductive organ plays an important role in sperm production, maintenance and entry to the female reproductive tract, as well as generation and secretion of male sex hormones responsible for the health of male reproductive system. The purpose of this paper is to discuss the experimental and clinical evidence on the utilization of tissue engineering techniques in treating male infertility. Tissue engineering (TE) and regenerative medicine have developed new approaches to treat patients with reproductive disorders such as iatrogenic injuries, congenital abnormalities, and trauma. In some cases, including congenital defects and undescended testis or hypogonadism, the sperm samples are not retrieved. This makes TE a possible future strategy for restoration of male fertility. Here, we have summarized the recent advances in experimental and clinical application of cell-, tissue-, and organ-based regenerative medicine in male reproductive disorders.

Published

2020

20. Mechanobiology of annulus fibrosus and nucleus pulposus cells in intervertebral discs.

Author

Molladavoodi S, McMorran J, and Gregory D

Subjects

Biophysics, Humans, Annulus Fibrosus pathology, Intervertebral Disc pathology, Low Back Pain pathology, Nucleus Pulposus pathology

Abstract

Low back pain (LBP) is a chronic condition that can affect up to 80% of the global population. It is the number one cause of disability worldwide and has enormous socioeconomic consequences. One of the main causes of this condition is intervertebral disc (IVD) degeneration. IVD degenerative processes and inflammation associated with it has been the subject of many studies in both tissue and cell level. It is believed that the phenotype of the resident cells within the IVD directly affects homeostasis of the tissue. At the same time, IVDs located between vertebral bodies of spine are under various mechanical loading conditions in vivo. Therefore, investigating how mechanical loading can affect the behaviour of IVD cells has been a subject of many research articles. In this review paper, following a brief explanation of the anatomy of the IVD and its resident cells, we compiled mechanobiological studies of IVD cells (specifically, annulus fibrosus and nucleus pulposus cells) and synthesized and discussed the key findings of the field.

Published

2020

21. Correction to: The efficacy of different sources of mesenchymal stem cells for the treatment of knee osteoarthritis.

Author

Shariatzadeh M, Song J, and Wilson SL

Abstract

There is an error in the Original Publication of this paper. The author names were incorrectly presented.

Published

2019

22. Correction to: Co-expression network analysis identified key genes in association with mesenchymal stem cell osteogenic differentiation.

Author

Yang W, Xia Y, Qian X, Wang M, Zhang X, Li Y, and Li L

Abstract

The authors regret that in our published paper entitled "Co-expression network analysis identified key genes in association with mesenchymal stem cell osteogenic differentiation" Cell Tissue Res (2019). https://doi.org/10.1007/s00441-019-03071-1; there is a typo in the text.

Published

2019

23. Taurine enhances mouse cochlear neural stem cell transplantation via the cochlear lateral wall for replacement of degenerated spiral ganglion neurons via sonic hedgehog signaling pathway.

Author

Huang X, Liu J, Wu W, Hu P, and Wang Q

Subjects

Animals, Cell Proliferation, GABAergic Neurons cytology, Hedgehog Proteins metabolism, Mice, Mice, Inbred BALB C, Vesicular Glutamate Transport Protein 1 metabolism, GABAergic Neurons metabolism, Hearing Loss, Central surgery, Neural Stem Cells drug effects, Neural Stem Cells transplantation, Spiral Ganglion cytology, Taurine pharmacology

Abstract

The aim of this paper is to investigate the potential beneficial effects of taurine in cochlear neural stem cell (NSC) transplantation and elucidate the underlying molecular mechanism. The NSC cells were isolated from neonatal Balb/c mice and an auditory neuropathy gerbil model was established by microinjection of ouabain. The spiral ganglion neurons (SGN) were characterized with immunofluorescence stained with Tuj1 antibody. Cell proliferation was determined by BrdU incorporation assay and the morphologic index was measured under the light microscope. The relative protein level was determined by immunoblotting. The hearing of the animal model was scored by click- and tone burst-evoked auditory brainstem response (ABR). Here we consolidated our previous finding that taurine stimulated SGN density and the proliferation index, which were completely abolished by Shh inhibitor, cyclopamine. Transplantation of cochlear NSCs combined with taurine significantly improved ouabain-induced auditory neuropathy in gerbils. In addition, cyclopamine antagonized taurine's effect on glutamatergic and GABAergic neuron population via suppression of VGLUT1 and GAT1 expression. Mechanistically, taurine evidently activated the Sonic HedgeHog pathway and upregulated Shh, Ptc-1, Smo and Gli-1 proteins, which were specifically blockaded by cyclopamine. Here, for the first time demonstrated we that co-administration with taurine significantly improved NSC transplantation and the Shh pathway was identified in this beneficial effect.

Published

2019

24. Distributions and relationships of chemically defined enteroendocrine cells in the rat gastric mucosa.

Author

Hunne B, Stebbing MJ, McQuade RM, and Furness JB

Subjects

Animals, Enteric Nervous System cytology, Histamine metabolism, Rats, Rats, Sprague-Dawley, Enteroendocrine Cells cytology, Enteroendocrine Cells metabolism, Gastric Mucosa cytology, Gastric Mucosa innervation, Gastric Mucosa metabolism, Gastrointestinal Hormones metabolism, Neuropeptides metabolism, Peptide Hormones metabolism

Abstract

This paper provides quantitative data on the distributions of enteroendocrine cells (EEC), defined by the hormones they contain, patterns of colocalisation between hormones and EEC relations to nerve fibres in the rat gastric mucosa. The rat stomach has three mucosal types: non-glandular stratified squamous epithelium of the fundus and esophageal groove, a region of oxyntic glands in the corpus, and pyloric glands of the antrum and pylorus. Ghrelin and histamine were both contained in closed cells, not contacting the lumen, and were most numerous in the corpus. Gastrin cells were confined to the antrum, and 5-hydroxytryptamine (5-HT) and somatostatin cells were more frequent in the antrum than the corpus. Most somatostatin cells had basal processes that in the antrum commonly contacted gastrin cells. Peptide YY (PYY) cells were rare and mainly in the antrum. The only numerous colocalisations were 5-HT and histamine, PYY and gastrin and gastrin and histamine in the antrum, but each of these populations was small. Peptide-containing nerve fibres were found in the mucosa. One of the most common types was vasoactive intestinal peptide (VIP) fibres. High-resolution analysis showed that ghrelin cells were closely and selectively approached by VIP fibres. In contrast, gastrin cells were not selectively innervated by VIP or CGRP fibres. The study indicates that there are distinct populations of gastric EEC and selective innervation of ghrelin cells. It also shows that, in contrast to EEC of the small intestine, the majority of EEC within the stomach contained only a single hormone.

Published

2019

25. Gastric pentadecapeptide body protection compound BPC 157 and its role in accelerating musculoskeletal soft tissue healing.

Author

Gwyer D, Wragg NM, and Wilson SL

Subjects

Animals, Humans, Peptide Fragments therapeutic use, Proteins therapeutic use, Ligaments drug effects, Ligaments injuries, Muscle, Skeletal drug effects, Muscle, Skeletal injuries, Peptide Fragments pharmacology, Proteins pharmacology, Tendon Injuries drug therapy, Wound Healing drug effects

Abstract

There is a current need for a therapy that can alleviate the social and economic burden that presents itself with debilitating and recurring musculoskeletal soft tissue injuries and disorders. Currently, several therapies are emerging and undergoing trials in animal models; these focus on the manipulation and administration of several growth factors implicated with healing. However, limitations include in vivo instability, reliance on biocompatible and robust carriers and restricted application procedures (local and direct). The aim of this paper is therefore to critically review the current literature surrounding the use of BPC 157, as a feasible therapy for healing and functional restoration of soft tissue damage, with a focus on tendon, ligament and skeletal muscle healing. Currently, all studies investigating BPC 157 have demonstrated consistently positive and prompt healing effects for various injury types, both traumatic and systemic and for a plethora of soft tissues. However, to date, the majority of studies have been performed on small rodent models and the efficacy of BPC 157 is yet to be confirmed in humans. Further, over the past two decades, only a handful of research groups have performed in-depth studies regarding this peptide. Despite this, it is apparent that BPC 157 has huge potential and following further development has promise as a therapy to conservatively treat or aid recovery in hypovascular and hypocellular soft tissues such as tendon and ligaments. Moreover, skeletal muscle injury models have suggested a beneficial effect not only for disturbances that occur as a result of direct trauma but also for systemic insults including hyperkalamia and hypermagnesia. Promisingly, there are few studies reporting any adverse reactions to the administration of BPC 157, although there is still a need to understand the precise healing mechanisms for this therapy to achieve clinical realisation.

Published

2019

26. Skeletal muscle fibrosis: an overview.

Author

Mahdy MAA

Subjects

Aging pathology, Animals, Disease Models, Animal, Fibrosis, Humans, Muscle, Skeletal injuries, Muscular Dystrophies pathology, Extracellular Matrix metabolism, Muscle, Skeletal pathology

Abstract

Extracellular matrix (ECM) is an essential component of skeletal muscle. It provides a framework structure that holds myofibers and blood capillaries and nerves supplying the muscle. In addition, it has a principal role in force transmission, maintenance and repair of muscle fibers. Excessive accumulation of ECM components, especially collagens, either due to excessive ECM production, alteration in ECM-degrading activities, or a combination of both is defined as fibrosis. Skeletal muscle fibrosis impairs muscle function, negatively affects muscle regeneration after injury and increases muscle susceptibility to re-injury, therefore, it is considered a major cause of muscle weakness. Fibrosis of skeletal muscle is a hallmark of muscular dystrophies, aging and severe muscle injuries. Thus, a better understanding of the mechanisms of muscle fibrosis will help to advance our knowledge of the events that occur in dystrophic muscle diseases and develop innovative anti-fibrotic therapies to reverse fibrosis in such pathologic conditions. This paper explores an overview of the process of muscle fibrosis, as well as different murine models for studying fibrosis in skeletal muscles. In addition, factors regulating fibrosis and strategies to inhibit muscle fibrosis are discussed.

Published

2019

27. Correction to: Sulforaphane protects granulosa cells against oxidative stress via activation of NRF2-ARE pathway.

Author

Sohel MMH, Amin A, Prastowo S, Linares-Otoya L, Hoelker M, Schellander K, and Tesfaye D

Abstract

There is an error in the original publication of this paper. Figures 1-6 were shown in the wrong version, thus corrected figures provided were in this article.

Published

2018

28. Correction to: Epigenetic regulation of neuroblastoma development.

Author

Durinck K and Speleman F

Abstract

The authorship names of this paper are incorrect.

Published

2018

29. Correction to: The antidepressant effect of musk in an animal model of depression: a histopathological study.

Author

Ayuob NN, Ali SS, Suliaman M, El Wahab MGA, and Ahmed SM

Abstract

The original publication of this paper contains mistake. Below you will find the needed corrections.

Published

2018

30. Meniscus, articular cartilage and nucleus pulposus: a comparative review of cartilage-like tissues in anatomy, development and function.

Author

Chen S, Fu P, Wu H, and Pei M

Subjects

Animals, Biomechanical Phenomena, Cartilage, Articular anatomy & histology, Cartilage, Articular chemistry, Cartilage, Articular growth & development, Collagen analysis, Humans, Meniscus anatomy & histology, Meniscus chemistry, Meniscus growth & development, Nucleus Pulposus anatomy & histology, Nucleus Pulposus chemistry, Nucleus Pulposus growth & development, Regeneration, Tissue Engineering methods, Cartilage, Articular physiology, Meniscus physiology, Nucleus Pulposus physiology

Abstract

The degradation of cartilage in the human body is impacted by aging, disease, genetic predisposition and continued insults resulting from daily activity. The burden of cartilage defects (osteoarthritis, rheumatoid arthritis, intervertebral disc damage, knee replacement surgeries, etc.) is daunting in light of substantial economic and social stresses. This review strives to broaden the scope of regenerative medicine and tissue engineering approaches used for cartilage repair by comparing and contrasting the anatomical and functional nature of the meniscus, articular cartilage (AC) and nucleus pulposus (NP). Many review papers have provided detailed evaluations of these cartilages and cartilage-like tissues individually but none have comprehensively examined the parallels and inconsistencies in signaling, genetic expression and extracellular matrix composition between tissues. For the first time, this review outlines the importance of understanding these three tissues as unique entities, providing a comparative analysis of anatomy, ultrastructure, biochemistry and function for each tissue. This novel approach highlights the similarities and differences between tissues, progressing research toward an understanding of what defines each tissue as distinctive. The goal of this paper is to provide researchers with the fundamental knowledge to correctly engineer the meniscus, AC and NP without inadvertently developing the wrong tissue function or biochemistry.

Published

2017

31. Ultrastructural and immunocytochemical evidence for the reorganisation of the milk fat globule membrane after secretion.

Author

Wooding FB and Mather IH

Subjects

Animals, Green Fluorescent Proteins metabolism, Immunohistochemistry, Lipid Droplets, Membranes, Microscopy, Confocal, Milk metabolism, Staining and Labeling, Glycolipids metabolism, Glycoproteins metabolism, Glycoproteins ultrastructure

Abstract

This paper reports a detailed ultrastructural and immunocytochemical investigation of the structure of the milk fat globule membrane (MFGM) in a variety of species. The process follows the same pattern in all mammals so far investigated. The initial (or primary) MFGM immediately on release from the mammary cell is a continuous unit membrane with a thin underlying layer of cytoplasmic origin and a monolayer of phospholipid separating it from the core lipid. This structure changes rapidly as the milk fat globule (MFG) moves into the alveolar lumen. The unit membrane plus the underlying layer of cytoplasm modifies drastically into discontinuous patches and networks. These are superimposed upon a continuous apparently structureless sheet of electron dense material stabilising the MFG and similar to that which bounded the lipid in the cell. The underlying layer of the patches increases in electron density and immunocytochemistry demonstrates localisation of MFGM proteins in this layer. In four species, the dense material shows ordered paracrystalline molecular arrays in section and en face views. All the arrays show the same basic pattern and unit size as determined by optical diffraction. Similar patches, networks and arrays are present on the surface of expressed MFG. Negative staining of lipid-extracted expressed MFGs shows similar patches and networks of membrane. These also occasionally show the crystalline arrays and label with MFGM protein antibodies. Similar networks and strands of plasma membrane on the MFG surface are shown by our CLSM examination of unfixed expressed MFG from mice genetically modified to express a fluorescent molecule as a normal plasma membrane constituent.

Published

2017

32. Sex and the preimplantation embryo: implications of sexual dimorphism in the preimplantation period for maternal programming of embryonic development.

Author

Hansen PJ, Dobbs KB, Denicol AC, and Siqueira LGB

Subjects

Animals, Diet, Embryo Culture Techniques, Embryonic Development, Female, Gene Expression Regulation, Developmental, Granulocyte-Macrophage Colony-Stimulating Factor genetics, Granulocyte-Macrophage Colony-Stimulating Factor metabolism, Humans, Male, Pregnancy, Blastocyst physiology, Sex Characteristics

Abstract

The developmental program of the embryo displays a plasticity that can result in long-acting effects that extend into postnatal life. In mammals, adult phenotype can be altered by changes in the maternal environment during the preimplantation period. One characteristic of developmental programming during this time is that the change in adult phenotype is often different for female offspring than for male offspring. In this paper, we propose the hypothesis that sexual dimorphism in preimplantation programming is mediated, at least in part, by sex-specific responses of embryos to maternal regulatory molecules whose secretion is dependent on the maternal environment. The strongest evidence for this idea comes from the study of colony-stimulating factor 2 (CSF2). Expression of CSF2 from the oviduct and endometrium is modified by environmental factors of the mother, in particular seminal plasma and obesity. Additionally, CSF2 alters several properties of the preimplantation embryo and has been shown to alleviate negative consequences of culture of mouse embryos on postnatal phenotype in a sex-dependent manner. In cattle, exposure of preimplantation bovine embryos to CSF2 causes sex-specific changes in gene expression, interferon-τ secretion and DNA methylation later in pregnancy (day 15 of gestation). It is likely that several embryokines can alter postnatal phenotype through actions directed towards the preimplantation embryo. Identification of these molecules and elucidation of the mechanisms by which sexually-disparate programming is established will lead to new insights into the control and manipulation of embryonic development.

Published

2016

33. Modeling auditory coding: from sound to spikes.

Author

Rudnicki M, Schoppe O, Isik M, Völk F, and Hemmert W

Subjects

Humans, Cochlea physiology

Abstract

Models are valuable tools to assess how deeply we understand complex systems: only if we are able to replicate the output of a system based on the function of its subcomponents can we assume that we have probably grasped its principles of operation. On the other hand, discrepancies between model results and measurements reveal gaps in our current knowledge, which can in turn be targeted by matched experiments. Models of the auditory periphery have improved greatly during the last decades, and account for many phenomena observed in experiments. While the cochlea is only partly accessible in experiments, models can extrapolate its behavior without gap from base to apex and with arbitrary input signals. With models we can for example evaluate speech coding with large speech databases, which is not possible experimentally, and models have been tuned to replicate features of the human hearing organ, for which practically no invasive electrophysiological measurements are available. Auditory models have become instrumental in evaluating models of neuronal sound processing in the auditory brainstem and even at higher levels, where they are used to provide realistic input, and finally, models can be used to illustrate how such a complicated system as the inner ear works by visualizing its responses. The big advantage there is that intermediate steps in various domains (mechanical, electrical, and chemical) are available, such that a consistent picture of the evolvement of its output can be drawn. However, it must be kept in mind that no model is able to replicate all physiological characteristics (yet) and therefore it is critical to choose the most appropriate model-or models-for every research question. To facilitate this task, this paper not only reviews three recent auditory models, it also introduces a framework that allows researchers to easily switch between models. It also provides uniform evaluation and visualization scripts, which allow for direct comparisons between models.

Published

2015

34. Epidermal barrier disorders and corneodesmosome defects.

Author

Haftek M

Subjects

Animals, Desmosomes ultrastructure, Epidermis ultrastructure, Genetic Diseases, Inborn pathology, Humans, Models, Biological, Desmosomes pathology, Epidermis pathology, Skin Diseases pathology

Abstract

Corneodesmosomes are modified desmosomes present in the stratum corneum (SC). They are crucial for SC cohesion and, thus, constitute one of the pivotal elements of the functional protective barrier of human skin. Expression of corneodesmosomes and, notably, the process of their degradation are probably altered during several dermatoses leading to the disruption of the permeability barrier or to abnormal, often compensative, SC accumulation. These different situations are reviewed in the present paper.

Published

2015

35. Podocin is translocated to cytoplasm in puromycin aminonucleoside nephrosis rats and in poor-prognosis patients with IgA nephropathy.

Author

Fukuda H, Hidaka T, Takagi-Akiba M, Ichimura K, Oliva Trejo JA, Sasaki Y, Wang J, Sakai T, Asanuma K, and Tomino Y

Subjects

Animals, Glomerulonephritis, IGA diagnosis, Glomerulonephritis, IGA pathology, Humans, Male, Nephrosis chemically induced, Nephrosis diagnosis, Nephrosis pathology, Podocytes pathology, Prognosis, Puromycin Aminonucleoside pharmacology, Rats, Rats, Sprague-Dawley, Cytoplasm metabolism, Glomerulonephritis, IGA metabolism, Intracellular Signaling Peptides and Proteins metabolism, Membrane Proteins metabolism, Nephrosis metabolism, Podocytes metabolism, Puromycin Aminonucleoside adverse effects

Abstract

Podocytes serve as the final barrier to urinary protein loss through a highly specialized structure called a slit membrane and maintain foot process and glomerular basement membranes. Podocyte injury results in progressive glomerular damage and accelerates sclerotic changes, although the exact mechanism of podocyte injury is still obscure. We focus on the staining gap (podocin gap) defined as the staining difference between podocin and synaptopodin, which are normally located in the foot process. In puromycin aminonucleoside nephrosis rats, the podocin gap is significantly increased (p < 0.05) and podocin is translocated to the cytoplasm on days 7 and 14 but not on day 28. Surprisingly, the gap is also significantly increased (p < 0.05) in human kidney biopsy specimens of poor-prognosis IgA nephropathy patients. This suggests that the podocin gap could be a useful marker for classifying the prognosis of IgA nephropathy and indicating the translocation of podocin to the cytoplasm. Next, we find more evidence of podocin trafficking in podocytes where podocin merges with Rab5 in puromycin aminonucleoside nephrosis rats at day 14. In immunoelectron microscopy, the podocin positive area was significantly translocated from the foot process areas to the cytoplasm (p< 0.05) on days 7 and 14 in puromycin aminonucleoside nephrosis rats. Interestingly, podocin is also translocated to the cytoplasm in poor-prognosis human IgA nephropathy. In this paper, we demonstrate that the translocation of podocin by endocytosis could be a key traffic event of critical podocyte injury and that the podocin gap could indicate the prognosis of IgA nephropathy.

Published

2015

36. Update on stereology for light microscopy.

Author

Geuna S and Herrera-Rincon C

Subjects

Animals, Cell Count, Humans, Optical Imaging instrumentation, Microscopy methods, Optical Imaging methods

Abstract

The quantitative investigation of images taken from light microscopy observation is one of the pillars of biological and biomedical investigation. The main objective is the count of objects, usually cells. In addition, the measurement of several morphological parameters, such as the diameter of cells, the length of vessels, etc., can also be important for the quantitative assessment of the features of a tissue. Whereas counting and measuring histological elements may appear easy, especially today with the availability of dedicated software, in fact it is not, since what we can count and measure on light microscopy images are not the true histological elements but actually profiles of them. Obviously, the number and size of profiles of an object do not correspond to the object number and size and thus significant mistakes can be made in the interpretation of the quantitative data obtained from profiles. To cope with this problem, over the last decades, a number of design-based stereological tools have been developed in order to obtain unbiased and reliable quantitative estimates of cell and tissue elements that originate from light microscopy images. This paper reviews the basic principles of the stereological tools from the first disector applications through some of the most recently devised methods.

Published

2015

37. The role of catecholamines in mesenchymal stem cell fate.

Author

Hajifathali A, Saba F, Atashi A, Soleimani M, Mortaz E, and Rasekhi M

Subjects

Animals, Clinical Trials as Topic, Humans, Models, Biological, Signal Transduction, Catecholamines metabolism, Cell Lineage, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells metabolism

Abstract

Mesenchymal stem cells (MSCs) are multipotent stem cells found in many adult tissues, especially bone marrow (BM) and are capable of differentiation into various lineage cells such as osteoblasts, adipocytes, chondrocytes and myocytes. Moreover, MSCs can be mobilized from connective tissue into circulation and from there to damaged sites to contribute to regeneration processes. MSCs commitment and differentiation are controlled by complex activities involving signal transduction through cytokines and catecholamines. There has been an increasing interest in recent years in the neural system, functioning in the support of stem cells like MSCs. Recent efforts have indicated that the catecholamine released from neural and not neural cells could be affected characteristics of MSCs. However, there have not been review studies of most aspects involved in catecholamines-mediated functions of MSCs. Thus, in this review paper, we will try to describe the current state of catecholamines in MSCs destination and discuss strategies being used for catecholamines for migration of these cells to damaged tissues. Then, the role of the nervous system in the induction of osteogenesis, adipogenesis, chondrogenesis and myogenesis from MSCs is discussed. Recent progress in studies of signaling transduction of catecholamines in determination of the final fate of MSCs is highlighted. Hence, the knowledge of interaction between MSCs with the neural system could be applied towards the development of new diagnostic and treatment alternatives for human diseases.

Published

2014

38. Modeling panic disorder in rodents.

Author

Moreira FA, Gobira PH, Viana TG, Vicente MA, Zangrossi H, and Graeff FG

Subjects

Animals, Humans, Rodentia, Disease Models, Animal, Panic Disorder

Abstract

Panic disorder (PD) is a subtype of anxiety disorder in which the core phenomenon is the spontaneous occurrence of panic attacks. Although studies with laboratory animals have been instrumental for the understanding of its neurobiology and treatment, few review articles have focused on the validity of the currently used animal models for studying this psychopathology. Therefore, the aim of the present paper is to discuss the strengths and limits of these models in terms of face, construct and predictive validity. Based on the hypothesis that panic attacks are related to defensive responses elicited by proximal threat, most animal models measure the escape responses induced by specific stimuli. Some apply electrical or chemical stimulation to brain regions proposed to modulate fear and panic responses, such as the dorsal periaqueductal grey or the medial hypothalamus. Other models focus on the behavioural consequences caused by the exposure of rodents to ultrasound or natural predators. Finally, the elevated T-maze associates a one-way escape response from an open arm with panic attacks. Despite some limitations, animal models are essential for a better understanding of the neurobiology and pharmacology of PD and for discovering more effective treatments.

Published

2013

39. Touching on translation.

Author

Talpos J and Steckler T

Subjects

Animals, Humans, Models, Animal, Rats, Rats, Sprague-Dawley, Touch, Cognition Disorders psychology, Conditioning, Operant, Translational Research, Biomedical methods, User-Computer Interface

Abstract

During the last decade, the idea of a "translational" approach has become commonplace within the field of neuroscience. Despite the rapid adaptation of this theoretical framework, few examples of hypothesis-driven translation start with a pre-clinical finding and end with a positive clinical result and no examples of a novel medication have been developed in this way for the treatment of cognition-related disorders. Whereas instances of successful translation exist, most of these are the result of post-hoc hypothesis testing, rather than a priori hypothesis creation. Indeed, part of this disconnection between pre-clinical and clinical results has been driven by paradigms used at both the pre-clinical level (measurement of behaviors that might not be relevant to a patient population) and the clinical level (use of test batteries that cannot be modeled in a pre-clinical environment). However, automated cognition batteries that require responses to stimuli displayed upon a video monitor are decreasing the distance between pre-clinical and clinical behavioral studies. In the last 5 years, numerous papers have been published demonstrating that cognitive functions can be measured in a similar manner in the rodent as in a clinical setting via touch-screen-equipped operant boxes. Here, we argue that the touch-screen approach has the potential of being a powerful tool for the translation of pre-clinical hypotheses into positive clinical findings.

Published

2013

40. Stratum corneum proteases and dry skin conditions.

Author

Rawlings AV and Voegeli R

Subjects

Animals, Epidermal Cells, Humans, Skin cytology, Skin Diseases pathology, Epidermis enzymology, Peptide Hydrolases metabolism, Skin enzymology, Skin Diseases enzymology

Abstract

This paper reviews the role of stratum corneum (SC) proteases and their inhibitors in normal and xerotic skin conditions. The importance of the corneodesmosome for SC integrity is also discussed, and the effect of proteases on its disassembly. The relevance of each enzyme class is outlined, as well as their potential inhibitors. It is becoming much clearer, however, that the LEKTI family of inhibitors are critical for SC enzyme control. Delayed desquamation is the accumulation of corneocytes on the surface of the SC that leads ultimately to the cosmetic condition commonly termed as "dry skin". The reductions of serine protease activity are a consistent theme in dry skin, and non-eczematous atopic dermatitis otherwise known as atopic xerosis leading to retention hyperkeratosis. Flaky skin is normally seen on the body whereas a rough skin is observed on the face. Increased protease activity occurs in most, if not all, inflammatory dermatoses, ranging from the genetic disorders, psoriasis and eczematous atopic dermatitis to sub-clinical barrier abnormalities induced by surfactants or by environmental influences as a result of premature desquamation. In some of these conditions a thinner SC is apparent, e.g., eczematous atopic skin or on photodamaged facial skin. A better understanding of the proteolytic events and of the regulatory mechanisms involved in desquamation should enable the design of new treatments for skin disorders associated with faulty desquamation. This new knowledge will be an important basis for new developments in 'corneotherapy' and 'corneocare'.

Published

2013

41. Stem cell-based tissue engineering in veterinary orthopaedics.

Author

Brehm W, Burk J, Delling U, Gittel C, and Ribitsch I

Abstract

Regenerative medicine is one of the most intensively researched medical branches, with enormous progress every year. When it comes to translating research from bench to bedside, many of the pioneering innovations are achieved by cooperating teams of human and veterinary medical scientists. The veterinary profession has an important role to play in this new and evolving technology, holding a great scientific potential, because animals serve widely as models for human medicine and results obtained from animals may serve as preclinical results for human medicine. Regenerative veterinary medicine utilizing mesenchymal stromal cells (MSC) for the treatment of acute injuries as well as chronic disorders is gradually turning into clinical routine. As orthopaedic disorders represent a major part of all cases in veterinary clinical practice, it is not surprising that they are currently taking a leading role in MSC therapies. Therefore, the purpose of this paper is to give an overview on past and current achievements as well as future perspectives in stem cell-based tissue engineering in veterinary orthopaedics.

Published

2012

42. Development of the zebrafish myoseptum with emphasis on the myotendinous junction.

Author

Charvet B, Malbouyres M, Pagnon-Minot A, Ruggiero F, and Le Guellec D

Subjects

Animals, Intercellular Junctions ultrastructure, Muscle, Skeletal ultrastructure, Intercellular Junctions physiology, Muscle, Skeletal growth & development, Zebrafish growth & development

Abstract

Zebrafish myosepta connect two adjacent muscle cells and transmit muscular forces to axial structures during swimming via the myotendinous junction (MTJ). The MTJ establishes transmembrane linkages system consisting of extracellular matrix molecules (ECM) surrounding the basement membrane, cytoskeletal elements anchored to sarcolema, and all intermediate proteins that link ECM to actin filaments. Using a series of zebrafish specimens aged between 24 h post-fertilization and 2 years old, the present paper describes at the transmission electron microscope level the development of extracellular and intracellular elements of the MTJ. The transverse myoseptum development starts during the segmentation period by deposition of sparse and loosely organized collagen fibrils. During the hatching period, a link between actin filaments and sarcolemma is established. The basal lamina underlining sarcolemma is well differentiated. Later, collagen fibrils display an orthogonal orientation and fibroblast-like cells invade the myoseptal stroma. A dense network of collagen fibrils is progressively formed that both anchor myoseptal fibroblasts and sarcolemmal basement membrane. The differentiation of a functional MTJ is achieved when sarcolemma interacts with both cytoskeletal filaments and extracellular components. This solid structural link between contractile apparatus and ECM leads to sarcolemma deformations resulting in the formation of regular invaginations, and allows force transmission during muscle contraction. This paper presents the first ultrastructural atlas of the zebrafish MTJ development, which represents an useful tool to analyse the mechanisms of the myotendinous system formation and their disruption in muscle disorders.

Published

2011

43. Developmental study of tripeptidyl peptidase I activity in the mouse central nervous system and peripheral organs.

Author

Dimitrova M, Deleva D, Pavlova V, and Ivanov I

Subjects

Animals, Brain cytology, Brain enzymology, Brain growth & development, Central Nervous System cytology, Kidney cytology, Kidney enzymology, Kidney growth & development, Liver cytology, Liver enzymology, Liver growth & development, Mice, Mice, Inbred BALB C, Organ Specificity, Spinal Cord cytology, Spinal Cord enzymology, Spinal Cord growth & development, Tripeptidyl-Peptidase 1, Viscera cytology, Viscera enzymology, Viscera growth & development, Aminopeptidases metabolism, Central Nervous System enzymology, Central Nervous System growth & development, Dipeptidyl-Peptidases and Tripeptidyl-Peptidases metabolism, Serine Proteases metabolism

Abstract

Tripeptidyl peptidase I (TPPI) - a lysosomal serine protease - is encoded by the CLN2 gene, mutations that cause late-infantile neuronal ceroid lipofuscinosis (LINCL) connected with profound neuronal loss, severe clinical symptoms and early death at puberty. Developmental studies of TPPI activity levels and distribution have been done in the human and rat central nervous systems (CNS) and visceral organs. Similar studies have not been performed in mouse. In this paper, we follow up on the developmental changes in the enzyme activity and localization pattern in the CNS and visceral organs of mouse over the main periods of life - embryonic, neonate, suckling, infantile, juvenile, adult and aged - using biochemical assays and enzyme histochemistry. In the studied peripheral organs (liver, kidney, spleen, pancreas and lung) TPPI is present at birth but further its pattern is not consistent in different organs over different life periods. TPPI activity starts to be expressed in the brain at the 10th embryonic day but in most neuronal types it appears at the early infantile period, increases during infancy, reaches high activity levels in the juvenile period and is highest in adult and aged animals. Thus, in mice TPPI activity becomes crucial for the neuronal functions later in development (juvenile period) than in humans and does not decrease with aging. These results are essential as a basis for comparison between normal and pathological TPPI patterns in mice. They can be valuable in view of the use of animal models for studying LINCL and other neurodegenerative disorders.

Published

2011

44. Primary cilia and organogenesis: is Hedgehog the only sculptor?

Author

Tasouri E and Tucker KL

Subjects

Animals, Neoplasms metabolism, Signal Transduction, Wnt Proteins metabolism, Cilia metabolism, Hedgehog Proteins metabolism, Organogenesis

Abstract

The primary cilium is a small microtubule-based organelle projecting from the plasma membrane of practically all cells in the mammalian body. In the past 8 years, a flurry of papers has indicated a crucial role of this long-neglected organelle in the development of a wide variety of organs, including derivatives of all three germ layers. A common theme of these studies is the critical dependency of signal transduction of the Hedgehog pathway upon functionally intact cilia to regulate organogenesis. Another common theme is the role that the cilium plays, not necessarily in the determination of the embryonic anlagen of these organs, although this too occurs but rather in the proliferation and morphogenesis of the previously determined organ. We outline the various organ systems that are dependent upon primary cilia for their proper development and we discuss the cilia-dependent roles that Sonic and Indian Hedgehog play in these processes. In addition and most importantly for the field, we discuss the controversial involvement of another major developmental pathway, Wnt signaling, in cilia-dependent organogenesis.

Published

2011

45. Caveolae and transcytosis in endothelial cells: role in atherosclerosis.

Author

Frank PG, Pavlides S, and Lisanti MP

Subjects

Animals, Atherosclerosis pathology, Biological Transport, Caveolae pathology, Endothelial Cells pathology, Humans, Transport Vesicles pathology, Atherosclerosis metabolism, Caveolae metabolism, Caveolin 1 metabolism, Endothelial Cells metabolism, Transport Vesicles metabolism

Abstract

The endothelium plays an important role in the regulation of molecular exchanges between the blood and peripheral tissues. The transport of molecules between tissues must be tightly controlled in order to maintain homeostasis between the different organs of the body. The endothelial transcytosis pathway has been shown to direct the transfer of proteins and solutes and therefore to act as a filtering system. This transport mode has been demonstrated to involve plasma-membrane vesicles that may be transferred with their cargo components from the apical to the basal side of endothelial cells. Among the vesicles implicated in the regulation of transcytosis, caveolae, which are 50 to 100-nm plasma-membrane invaginations, have been reported to play an essential part. In this paper, we review the function of caveolae and their major protein component (i.e., caveolin-1) in the regulation of endothelial transcytosis. The roles of caveolae in vascular diseases, such as atherosclerosis, are discussed.

Published

2009

46. Stages in follicle cell/oocyte interface during vitellogenesis in caecilians Ichthyophis tricolor and Gegeneophis ramaswamii: a transmission electron-microscopic study.

Author

Beyo RS, Divya L, Smita M, Oommen OV, and Akbarsha MA

Subjects

Animals, Female, Microscopy, Electron, Transmission, Random Allocation, Amphibians anatomy & histology, Oocytes ultrastructure, Ovarian Follicle ultrastructure, Vitellogenesis

Abstract

We describe the ultrastructural organization of the vitellogenic follicle stages in two caecilian species. Monthly samples of slices of ovary of Ichthyophis tricolor and Gegeneophis ramaswamii from the Western Ghats of India were subjected to transmission electron-microscopic analysis, with special attention to the follicle cell/oocyte interface. In order to maintain uniformity of the stages among the amphibians, all the stages in the caecilian follicles were assigned to stages I-VI, the vitellogenic and post-vitellogenic follicles being assigned to stages III-VI. Stage III commences with the appearance of precursors of vitelline envelope material in the perivitelline space. Stages IV and V have been assigned appropriate substages. During the transition of stage III to stage VI oocytes, a sequential change occurs in the manifestations of follicle cells, perivitelline space, vitelline envelope and oocyte cortex. The vitelline envelope becomes a tough coat through the tunnels of which the macrovilli pass to interdigitate between the microvilli. The oocyte surface forms pinocytic vesicles that develop into coated pits and, later, coated vesicles. Contributions of the oocyte cortex to the vitelline envelope and of the follicle cells to yolk material via synthesis within them are indicated. The follicle cell/oocyte interface of vitellogenic follicles of these two caecilians resembles that in anurans and urodeles, with certain features being unique to caecilians. Thus, this paper throws light on the possible relationships of caecilians to anurans and urodeles with special reference to ovarian follicles.

Published

2008

47. Bone marrow as a source of stem cells and germ cells? Perspectives for transplantation.

Author

Sottile V

Subjects

Animals, Humans, Bone Marrow Cells cytology, Bone Marrow Transplantation, Germ Cells cytology, Stem Cells cytology

Abstract

Recent publications have suggested the existence of germ stem cells in the mouse at postnatal stages. The mechanism of de novo oocyte formation is proposed to involve a contribution from the bone marrow to the germ cell pool, via the bloodstream. Critical examination of the data underpinning these contentious claims is under way from a reproductive biology perspective but little has been said about the nature of this elusive bone marrow population with germ cell potential. Furthermore, whereas the prospect of marrow-derived germ cells may appear propitious for fertility applications, its wider impact on transplantation medicine remains to be considered. This paper examines the evidence leading to the current debate and considers the implications of such findings for the field of bone marrow transplantation.

Published

2007

48. Phe-met-arg-phe (FMRF)-amide is a substrate source of NO synthase in the gastropod nervous system.

Author

Roszer T, Kiss-Tóth E, Petkó M, Szentmiklósi AJ, and Bánfalvi G

Subjects

Amiloride pharmacology, Animals, FMRFamide analysis, Immunohistochemistry, Lidocaine pharmacology, Muscle Contraction drug effects, NADPH Dehydrogenase metabolism, Nervous System drug effects, Neuropeptides pharmacology, Sodium Channel Blockers pharmacology, Tetrodotoxin pharmacology, FMRFamide metabolism, Gastropoda metabolism, Nervous System enzymology, Nervous System metabolism, Nitric Oxide Synthase biosynthesis

Abstract

The possible involvement of the L-arginine-containing Phe-met-arg-phe (FMRF)-amide (FMRFa) in neuronal nitric oxide (NO) biosynthesis was studied in a gastropod species. We found NADPH-diaphorase-positive neurons and FMRFa-containing fibers in close proximity in the enteric nervous system. Administration of L-arginine and FMRFa induced quantitatively similar nitrite production in both intact intestinal tissues and tissue homogenates. These changes could be prevented by the presence of NOARG (an NO synthase inhibitor). Neither chemically modified FMRFa (D-arginine instead of L-arginine) nor amino acid constituents of FMRFa (methionine, phenylalanine) affected basal nitrite production. FMRFa-induced alterations were reduced in the presence of Na+ channel blockers (tetrodotoxin, amiloride, lidocaine), the Na+/K+ATPase inhibitor ouabain, or protease inhibitors (leupeptine, pepstatine-a). FMRFa and its amino acid constituents were analyzed by paper chromatography. When FMRFa was added to tissue homogenates, the peptide was eliminated within 1-2 min, whereas methionine, phenylalanine, arginine, and citrulline levels were elevated simultaneously. We tested the effects of FMRFa, L-arginine, and NOARG on intestinal contractile activity. FMRFa relaxed the intestine for 1-2 min and then induced contractions for 20-40 min. In the presence of NOARG, no relaxant effect of FMRFa was recorded. As administration of L-arginine strongly inhibits the mechanical activity of the intestinal muscle, NO production presumably plays a substantial role in the action of FMRFa, at least in the initial phase. Our biochemical data indicate a direct involvement of FMRFa in NO biosynthesis. FMRFa might be hydrolyzed by extracellular peptidases and then the locally released arginine might be transported into the cells and broken-down to produce NO. Depolarization-induced NO production attributable to the activation of amiloride-sensitive Na+ channels might also be involved.

Published

2006

49. Ecdysteroid hormone nuclear receptor (EcR) exhibits circadian cycling in certain tissues, but not others, during development in Rhodnius prolixus (Hemiptera).

Author

Vafopoulou X and Steel CG

Subjects

Animals, Cell Nucleus metabolism, Circadian Rhythm, Fluorescent Antibody Technique, Larva, Male, Organ Specificity, Rhodnius growth & development, Ecdysteroids physiology, Receptors, Steroid physiology, Rhodnius physiology

Abstract

The insect moulting hormones, viz. the ecdysteroids, regulate gene expression during development by binding to an intracellular protein, the ecdysteroid receptor (EcR). In the insect Rhodnius prolixus, circulating levels of ecdysteroids exhibit a robust circadian rhythm. This paper demonstrates associated circadian rhythms in the abundance and distribution of EcR in several major target tissues of ecdysteroids, but not in others. Quantitative analysis of immunofluorescence images obtained by confocal laser-scanning microscopy following the use of anti-EcR has revealed a marked daily rhythm in the nuclear abundance of EcR in cells of the abdominal epidermis, brain, fat body, oenocytes and rectal epithelium of Rhodnius. This EcR rhythm is synchronous with the rhythm of circulating hormone levels. It free-runs in continuous darkness for several cycles, showing that EcR nuclear abundance is under circadian control. Circadian control of a nuclear receptor has not been shown previously in any animal. We infer that the above cell types detect and respond to the temporal signals in the rhythmic ecdysteroid titre. In several cell types, the rhythm in cytoplasmic EcR peaks several hours prior to the EcR peak in the nucleus each day, thereby implying a daily migration of EcR from the cytoplasm to the nucleus. This finding shows that EcR is not a constitutive nuclear receptor, as has previously been assumed. In the brain, rhythmic nuclear EcR has been found in peptidergic neurosecretory cells, indicating a potential pathway for feedback regulation of the neuroendocrine system by ecdysteroids, and also in regions containing circadian clock neurons, suggesting that the circadian timing system in the brain is also sensitive to rhythmic ecdysteroid signals.

Published

2006

50. TGFbeta superfamily members in spermatogenesis: setting the stage for fertility in mouse and Drosophila.

Author

Loveland KL and Hime G

Subjects

Animals, Bone Morphogenetic Proteins metabolism, Cell Differentiation physiology, Cell Lineage, Germ Cells cytology, Germ Cells physiology, Male, Meiosis physiology, Signal Transduction physiology, Drosophila physiology, Fertility physiology, Mice physiology, Spermatogenesis physiology, Transforming Growth Factor beta metabolism

Abstract

Male germ cell development involves a tightly controlled sequence of differentiation switches, from the time that this lineage is specified in the embryo to the moment of sperm release for transport from the testis. Recent research findings and technological advances have allowed key mediators of developmental switches to be identified, and several members of the TGFbeta superfamily of ligands have been implicated at distinct points of male gamete formation and spermatogenesis. This paper reviews the multiple points of control mediated by TGFbeta superfamily signalling molecules during differentiation of the mammalian male germ cell. Comparisons have been made with the Drosophila testis for which genetic analysis has yielded new information concerning the roles of TGFbeta signalling in early germ cell differentiation.

Published

2005