Cytology and Histology of the Cerebral Neurosecretory Systems in some Tropical Earthworm Species

Chaudhuri, PS

doi:10.4172/2157-7099.1000367

Cited by 4 publications

(2 citation statements)

References 18 publications

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“…These characteristics indicate functional attributes of cerebral A and B neurosecretory cells in E. eugeniae especially when possible 'super-elevation' in the osmotic concentration of the body fluid is accounted for. According to Chaudhuri and Banik [9] neurosecretory A cells and B cells correspond to peptidergic and aminergic neurones in the central nervous system of earthworm. According to Zimmermann [10], both aminergic and peptidergic neurons of the supraoesophagal ganglia are considered to be indispensable for regulation of the osmotic balance in dehydrated worms, Lumbricus terrestris.…”

Section: Discussionmentioning

confidence: 99%

Effects of dehydration and subsequent hydration stress on the cerebral neurosecretory cells of Eudrilus eugeniae (Kinberg, 1867)

Bhattacharjee

Chaudhuri

2020

GSC Biol. and Pharm. Sci.

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Moisture is a limiting factor for the survival and distribution of earthworms. During rainy season earthworms come out from their water-filled burrows and during summer move deeper into the soil to prevent acute desiccational water loss. Moisture loving worms like Eudrilus eugeniae when subjected to the dry soil and then subsequently hydrated, both the types of neurosecretory cells (A and B cells) show contrasting neurosecretory changes. During dehydration stress (2, 4 & 6 hours), both A and B cells deplete, lose their cellular conformity with extensive vacuolation. But in subsequent hydration of desiccated worms for 4 hrs, there is accumulation of neurosecretory materials in both types of cells, chiefly in A cells. The result indicates involvement of both A and B neurosecretory cells during osmotic stress from the perspective of histomorphic variations and secretory dynamics.

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Section: Discussionmentioning

confidence: 99%

Effects of dehydration and subsequent hydration stress on the cerebral neurosecretory cells of Eudrilus eugeniae (Kinberg, 1867)

Bhattacharjee

Chaudhuri

2020

GSC Biol. and Pharm. Sci.

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“…Because most of the tissues are colourless, histological sections must be stained or dyed before study under the microscope. Dyes stain the tissues selectively to enhance the cellular contrast and to highlight features of tissues [4,5,6,7,8]. Common histological stains and reactions are given in Table 1 [1].…”

Section: Stainingmentioning

confidence: 99%

Basic Histological Techniques (MicroTechniques) for Staining of Animal Tissue

Chaudhuri

2023

UPJOZ

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Background: Animal tissues when removed from the body must be well preserved in life-like manner as possible. Tissues must be further processed in graded alcohol and other essential chemicals to make them ready for studies under microscope. Aim/Objectives: To highlight the processes of handling animal tissues from the time they were removed from the body to the point they were processed, stained and made ready for microscopically diagnosis. Methodology: Standard and academic search engines were utilized and histological text consulted to review essential protocols for histological handling and processing of animal tissues and how they are stained. Basic staining techniques were included while advanced techniques were excluded. Results and Recommendation: Staining techniques such as Haematoxylin and Eosin, Weigert stain, Trichrome stain, Silver stain, Periodic acid Schiff and Wright stains were highlighted as with their staining appearance on animal tissues. Reaction of tissue components following application of dyes is given in Table 1. It is recommended that standard protocols be followed during staining of animal tissues for histological studies.

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Effects of Neuroendocrine Centers on Germ and Germline Cells in Dendrobaena atheca Cernosvitov (Annelida: Lumbricidae)

Gorgees

Kiret

2019

J Morphol Sci

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The aim of the present comprehensive experimental study was to reveal the effects of the removal and the regeneration of the main neuroendocrine centers in the oogonia, oocytes and trophocytes in Dendrobaena atheca. Various types of serial sections of ovaries and cephalic regions were obtained. Four histological staining techniques were employed. In controlled preparations, the neurosecretory activities of A-cells and C-cells showed correlation with cellular activities of oogonia, oocytes and trophocytes. In experimental preparations, removal of A-cells caused abnormalities in oocytes and trophocytes. The regeneration of A-cells restored vitellogenesis and repaired abnormalities. In both preparations, C-cells remained aldehyde-fuchsin (AF)-positive. B-cells and U-cells remained AF-negative. The oogonia showed continuous mitotic divisions. Regenerated A-cells appeared in week 3, increased in number, but could not stop the abnormalities, as hormones were not transported due to the lack or scarcity of blood capillaries. Therefore, abnormalities increased extremely. Then, they stopped, decreased, and were repaired due to hormonal transport via fully reconstructed blood capillary plexuses. The main conclusions are: (1) oocytes and trophocytes are controlled by A-cells, since they exhibited prominent changes during the removal and regeneration of A-cells; (2) oogonia are controlled by C-cells, as they showed correlation of activities with C-cells and were not affected by the removal and regeneration of A-cells; (3) B-cells and U-cells remained inactive; hence, they have no role in oogonia divisions and vitellogenesis; and (4) delayed hormonal effects of regenerated A-cells were due to the lack or scarcity of blood capillaries. Therefore, fully reconstructed blood capillary beds in the A-cells area are indispensable for hormonal diffusion, transport and effectivity.

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Cytology and Histology of the Cerebral Neurosecretory Systems in some Tropical Earthworm Species

Cited by 4 publications

References 18 publications

Effects of dehydration and subsequent hydration stress on the cerebral neurosecretory cells of Eudrilus eugeniae (Kinberg, 1867)

Effects of dehydration and subsequent hydration stress on the cerebral neurosecretory cells of Eudrilus eugeniae (Kinberg, 1867)

Basic Histological Techniques (MicroTechniques) for Staining of Animal Tissue

Effects of Neuroendocrine Centers on Germ and Germline Cells in Dendrobaena atheca Cernosvitov (Annelida: Lumbricidae)

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