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1.
Anat Rec (Hoboken) ; 302(6): 964-972, 2019 06.
Article in English | MEDLINE | ID: mdl-30418702

ABSTRACT

The superficial digital flexor tendon (SDFT) connects the superficial digital flexor muscle to the digits and its main function is to participate in digit flexion. The SDFT presents different regions along its length, which adapt to different biomechanical forces. During growth and maturation, the tendon may present changes in the regions subjected to compression and tension, with variations in the composition of the extracellular matrix (ECM), in the arrangement of collagen fibers and cellularity. With the purpose of analyzing the morphological and biochemical alterations of ECM of tendons during the growth and maturation, Gallus domesticus were euthanized at 1, 5, and 8 months of age and their SDFT were divided into regions of tension/compression (Sp) and tension (Sd). From 1 month of age, the Sp region already presented fibrocartilage characteristics with cells similar to chondrocytes. At 5 and 8 months, the Sd region displayed formation of a new structure similar to bone matrix, and intense metachromasia. The animals of 5 and 8 months presented an increase in MMP-2 and -9 activities and a lower number of cells when compared with the animals of 1 month, in both regions. In conclusion, structural and biochemical alterations occur during the maturation process of the SDFT, involving a decrease in the number of cells and changes in the degradation and composition of the ECM. Anat Rec, 302:964-972, 2019. © 2018 Wiley Periodicals, Inc.


Subject(s)
Extracellular Matrix/metabolism , Gelatinases/metabolism , Gene Expression Regulation, Developmental , Muscle, Skeletal/metabolism , Tendons/anatomy & histology , Tendons/metabolism , Animals , Chickens , Muscle, Skeletal/anatomy & histology , Muscle, Skeletal/cytology , Tendons/cytology
2.
Cytotechnology ; 68(5): 2193-206, 2016 Oct.
Article in English | MEDLINE | ID: mdl-26779908

ABSTRACT

Although there is a considerable demand for cell culture protocols from invertebrates for both basic and applied research, few attempts have been made to culture neural cells of crustaceans. We describe an in vitro method that permits the proliferation, growth and characterization of neural cells from the visual system of an adult decapod crustacean. We explain the coating of the culture plates with different adhesive substrates, and the adaptation of the medium to maintain viable neural cells for up to 7 days. Scanning electron microscopy allowed us to monitor the conditioned culture medium to assess cell morphology and cell damage. We quantified cells in the different substrates and performed statistical analyses. Of the most commonly used substrates, poly-L-ornithine was found to be the best for maintaining neural cells for 7 days. We characterized glial cells and neurons, and observed cell proliferation using immunocytochemical reactions with specific markers. This protocol was designed to aid in conducting investigations of adult crustacean neural cells in culture. We believe that an advantage of this method is the potential for adaptation to neural cells from other arthropods and even other groups of invertebrates.

3.
Microsc Res Tech ; 78(11): 949-57, 2015 Nov.
Article in English | MEDLINE | ID: mdl-26250889

ABSTRACT

The region in tendons that surrounds bone extremities adapts to compression forces, developing a fibrocartilaginous structure. During maturation, changes occur in the amount and organization of macromolecules of the extracellular matrix of tendons, changing the tissue morphology. To study the effect of maturation on tendons, Pedrês chickens were sacrificed at 1, 5, and 8 months old and had the calcaneal tendon (CT) divided into proximal region, submitted to tension/compression forces (p), and distal region submitted to tension force (d). Morphological analysis of the p region showed the presence of fibrocartilage in all ages. In the central part of the fibrocartilage, near a diminishment of the metachromasy, there was also a development of a probable fat pad that increased with the maturation. The activity of MMP-2 and MMP-9 was higher at 5 and 8 months old, in both regions, compared with 1-month-old animals. In SDS-PAGE analysis, components with electrophoretic migration similar to decorin and fibromodulin increased with maturation, particularly in the d region. The Western blotting confirmed the increased amount of fibromodulin with maturation. In conclusion, our results show that process of maturation leads to the appearance of a probable fat pad in the center of the fibrocartilage of CT, with a reduced amount of glycosaminoglycans and an increased activity of MMPs.


Subject(s)
Chickens/growth & development , Extracellular Matrix/chemistry , Tendons/chemistry , Tendons/growth & development , Animals , Blotting, Western , Electrophoresis, Polyacrylamide Gel , Histocytochemistry , Microscopy
4.
Connect Tissue Res ; 53(1): 29-38, 2012.
Article in English | MEDLINE | ID: mdl-21967646

ABSTRACT

Few studies have analyzed the effect of stretching after immobilization on the structural and biochemical properties of tendons. Here, the effect of stretching and immobilization on the proximal (p), intermediate (i), and distal (d) regions of the deep digital flexor tendon in rats was analyzed. The d region was subjected to compression and tension forces, the i region was subjected to compressive forces and the p region received tension forces. Rats were separated into five groups: GI--control for GII; GII--immobilized rats; GIII--control for GIV and GV groups; GIV--immobilized and stretched rats; and GV--immobilized rats which were allowed free cage activity. GII showed a higher molecular organization in the d and p regions as detected by measuring optical retardation, a lower concentration of hydroxyproline in the i region and a significant decrease in noncollagenous proteins found in the three regions of the tendon. Regarding the glycosaminoglycans, diminishing dermatan sulfate and the absence of chondroitin sulfate in the i region were observed in GII when compared to GI. However, in the same region of GIV, higher concentrations of chondroitin and dermatan sulfate were observed along with a strong metachromasy. An increase in hydroxyproline content in the i region and a higher molecular organization in the d and p regions were observed in GIV. Apparently, the active isoforms of metalloproteinase-2 also increased after stretching in all regions. These results suggest that stretching after immobilization contributed to the increase in molecular organization and to the synthesis of extracellular matrix components.


Subject(s)
Immobilization , Muscle Stretching Exercises , Tendons/physiology , Animals , Electrophoresis, Agar Gel , Electrophoresis, Polyacrylamide Gel , Fibrillar Collagens/metabolism , Hydroxyproline/metabolism , Male , Orthotic Devices , Proteolysis , Rats , Rats, Wistar , Tissue Extracts
5.
Micron ; 43(2-3): 463-9, 2012 Feb.
Article in English | MEDLINE | ID: mdl-22137973

ABSTRACT

The extracellular matrix consists of collagen, proteoglycans and non-collagen proteins. The incidence of obesity and associated diseases is currently increasing in developed countries. Obesity is considered to be a disease of modern times, and genes predisposing to the disease have been identified in humans and animals. The objective of the present study was to compare the morphological and biochemical aspects of the deep digital flexor tendon of lean (Fa/Fa or Fa/fa) and genetically obese (fa/fa) Zucker rats. Ultrastructural analysis showed the presence of lipid droplets in both groups, whereas disorganized collagen fibril bundles were observed in obese animals. Lean animals presented a larger amount of non-collagen proteins and glycosaminoglycans than obese rats. We propose that the overweight and lesser physical activity in obese animals may have provoked the alterations in the composition and organization of extracellular matrix components but a genetic mechanism cannot be excluded. These alterations might be related to organizational and structural modifications in the collagen bundles that influence the mechanical properties of tendons and the progression to a pathological state.


Subject(s)
Extracellular Matrix/metabolism , Obesity/pathology , Obesity/physiopathology , Tendons/pathology , Tendons/physiopathology , Animals , Collagen/metabolism , Collagen/ultrastructure , Glycosaminoglycans/metabolism , Histocytochemistry , Lipid Metabolism , Male , Microscopy , Rats , Rats, Zucker
6.
Cell Tissue Res ; 342(1): 97-105, 2010 Oct.
Article in English | MEDLINE | ID: mdl-20809413

ABSTRACT

Several studies have demonstrated the relationship between exercise and the extracellular matrix of muscle tendons, and have described alterations in their structural and biochemical properties when subjected to strenuous exercise. However, little is known about what happens to tendons when they are subjected to stretching. We evaluated the changes in the composition and structure of rat calcaneal tendons subjected to a stretching program. The animals had their muscles stretched for 30 s with 30 s of rest, with 10 repetitions, three and five times a week for 21 days. For morphological analysis, the sections were stained with hematoxylin-eosin and toluidine blue. For biochemical analysis, the tendons were treated with 4 M guanidine hydrochloride and analyzed in SDS-PAGE. The contents of total proteins and glycosaminoglycans were also measured. In the sections stained with toluidine blue, we could observe an increase of rounded cells, especially in the enthesis region. In the region next to the enthesis was a metachromatic region, which was more intensely stained in the stretched groups. In the tension regions, the cells appeared more aligned. Cellularity increased in both regions. The SDS-PAGE analysis showed a larger amount of collagen in the stretched groups and a polydispersed component of 65 kDa in all the groups. The amounts of proteins and glycosaminoglycans were also larger in the stretched tendons. The agarose-gel electrophoresis confirmed the presence of dermatan sulfate in the tension and compression regions, and of chondroitin sulfate only in the latter. Our results showed that the stretching stimulus changed the cellularity and the amount of the extracellular matrix compounds, confirming that tendons are dynamic structures with a capacity to detect alterations in their load.


Subject(s)
Chondroitin Sulfates/metabolism , Extracellular Matrix Proteins/metabolism , Extracellular Matrix/metabolism , Muscle Stretching Exercises , Physical Conditioning, Animal , Tendons/metabolism , Animals , Rats , Rats, Wistar
7.
Cell Tissue Res ; 342(2): 179-89, 2010 Nov.
Article in English | MEDLINE | ID: mdl-20878337

ABSTRACT

In a previous study, we analyzed and described the features of the degeneration of the protocerebral tract (PCT) of the crustacean Ucides cordatus, after the extirpation of the eyestalk. In that study, among axons with axoplasmic degeneration, cells with granules resembling blood cells (hemocytes) were seen. Therefore, in the present study, we characterized the circulating hemocytes and compared them with the cells recruited to a lesion, which was produced as in the former study. Using histochemistry, immunohistochemistry, and electron microscopy (transmission and scanning), we confirmed that circulating and recruited cells display a similar morphology. Therefore, in the crab, hemocytes were attracted to the lesion site in the acute stage of degeneration, appearing near local glial cells that showed signs of being responsive. Some of the attracted hemocytes displayed a morphology that was considered to be possibly activated blood cells. Also, the cells that migrated to the injured PCT displayed features, such as the presence of hydrolytic enzymes and an ability to phagocytize neural debris, similar to those of vertebrates. In summary, our results indicate that hemocytes were not only phagocytizing neural debris together with glial cells but also that they may be concerned with creating a favorable environment for regenerating events.


Subject(s)
Brachyura , Central Nervous System/pathology , Hemocytes/pathology , Optic Lobe, Nonmammalian/pathology , Wallerian Degeneration/pathology , Animals , Axons/metabolism , Axons/pathology , Axons/ultrastructure , Cell Movement , Central Nervous System/injuries , Hemocytes/ultrastructure , Microscopy, Electron, Scanning , Microscopy, Electron, Transmission , Nerve Regeneration/physiology , Neuroglia/pathology , Neuroglia/ultrastructure , Optic Lobe, Nonmammalian/metabolism , Optic Lobe, Nonmammalian/ultrastructure , Phagocytosis
8.
Connect Tissue Res ; 51(3): 171-8, 2010 Jun.
Article in English | MEDLINE | ID: mdl-20073987

ABSTRACT

Obesity is currently considered to be a world epidemic and one of the major public health problems in many countries, whose incidence is increasing at alarming rates. Genetically obese Zucker rats are used as a model of obesity and were employed in the present study. Tendons transmit contractile force from muscles to bone, thus permitting articular movement. The objective of our study was to analyze the ultrastructural, biochemical, and biomechanical alterations that occur in the deep digital flexor tendon of obese Zucker rats compared to lean animals. Ultrastructural analysis showed differences in collagen fibril diameter distribution and mass-average diameter between obese and lean animals. Regarding mechanical parameters, there was a significant difference in maximum displacement and strain. Hydroxyproline content was higher in obese animals. In view of the excess weight and peculiar conditions to which the tendon of obese animals is submitted, we concluded that obesity provokes alterations in the composition and organization of tendon extracellular matrix components. These alterations might be related to organizational and structural modifications in the collagen bundles, influencing the mechanical properties of the tendon and the progression to a pathological state.


Subject(s)
Collagen/ultrastructure , Obesity/pathology , Rats, Zucker/physiology , Tendons/ultrastructure , Animals , Collagen/physiology , Extracellular Matrix/chemistry , Extracellular Matrix/metabolism , Forelimb , Hydroxyproline/analysis , Hydroxyproline/metabolism , Immunoenzyme Techniques , Male , Obesity/genetics , Rats , Stress, Mechanical , Tendons/chemistry , Tendons/metabolism , Tensile Strength
9.
Connect Tissue Res ; 48(5): 219-28, 2007.
Article in English | MEDLINE | ID: mdl-17882697

ABSTRACT

This study investigated if nonforced active exercise alters the biomechanical and biochemical properties of calcaneal tendon during maturation. Chickens at 1, 5, and 8 months old were divided into two groups: caged and penned. Intact tendons were used for biomechanical analysis, but they were divided into tensile and compressive regions for quantification of hydroxyproline and glycosaminoglycans. The exercise increased tendon strength after the fifth month, energy absorption in the eighth month, and ultimate tensile stress in the first month. Age increased tendon strength and energy storage and reduced stiffness but did not alter stress. There was an increase in collagen content in the fifth month. Glycosaminoglycans showed a progressive decline in the tensile region. Thus, some biomechanical and biochemical changes depend on the maturation process itself and also are influenced by spontaneous exercise, showing that mechanical stimulation of low intensity may help to improve the quality of the tendon.


Subject(s)
Aging/physiology , Collagen/metabolism , Glycosaminoglycans/metabolism , Hydroxyproline/metabolism , Physical Exertion , Tendons/physiology , Animals , Biomechanical Phenomena , Calcaneus , Chickens , Elasticity , Stress, Mechanical
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