Научный журнал
European Journal of Natural History
ISSN 2073-4972
ИФ РИНЦ = 0,301

STRUCTURAL FEATURES OF LYMPH NODES IN DIFFERENT LYMPHATIC REGIONS AT THE NATURAL AND ACCELERATED AGING

Popov V.V. 1 Demchenko G.A. 2 Gorchakova O.V. 3 Gorchakov V.N. 1, 3
1 Novosibirsk State University
2 Institute of Physiology of Human and Animals of Committee of Science of the Ministry of Education and Science of the Republic of Kazakhstan
3 Research Institute of a clinical and experimental Lymphology – branch of Institute of Cytology and Genetics of the Siberian Branch of the Russian Academy of Science
The research purpose is to estimate the structural organization of lymph nodes of different localization at natural (physiological) and premature aging respectively at OXYS and Wistar rats. We used a morphological method of a research. The age-induced changes of lymphoid tissue of Wistar and OXYS rats differ with type of the immune response and morphological variant of lymph nodes structure. The immune response on humoral type is formed in mesenteric and inguinal lymph nodes, and the immune response on cellular type is formed in a tracheobronchial lymph node. Structural and functional zones of lymph nodes reach the biggest development in young rats of Wistar. Genetic the defect in rats of OXYS constrains development of peripheral lymphoid organs.We noted reduction of structures of cortical substance, especially lymphoid follicles and a paracortex, and expansion of medullary substance in a lymph node of OXYS rats. Lymph nodes are subject big morphological changes at rats of OXYS, than at old rats of Wistar. Observed changes of structure of lymph nodes of OXYS rats re a morphological equivalent of premature aging and confirms early decrease of a drainage and immune function of lymph nodes.
lymph node
oxys and wistar rats
premature aging
gerontology
1. BorodinI Yu.I. Lymphatic system and aging // Fundamental researches. 2011. no. 5. P. 11–15. URL: http://fundamental-research.ru/ru/article/view?id = 21252.
2. Suami H. Lymphosome concept: Anatomical study of the lymphatic system // Journal of Surgical Oncology. 2017. vol. 115. No. 1. P.1–5. DOI: 10.1002/jso.24332
3. Borodin Yu.I., Gorchakova O.V., Suhovershin A.V., Gorchakov V.N. The concept of lymphatic region in preventive lymphology. LAP LAMBERT Academic Publishing, 2018. 74 p.
4. Zotkin E.G., Dydykin I.S., Lila A.M. The inflammatory theory of aging, age-associated diseases and osteoarthritis // Russian medical journal. 2020. no. 7. P. 33–38.
5. Demyanenko S.V., Chistyakov V.A., Vodopyanov A.S., Bren A.B. Age changes a thymic-dependent link of the immune system // Journal of fundamental medicine and biology. 2012. no. 1. P. 17–29.
6. Toporova S.G. Features of a system of pericellular humoral transport when aging: overview of literature // Almanac “Gerontology ana Geriatric”. 2003. issue 2. P. 90–94. [In Rus.]
7. Kolosova N.G., Stefanova N.A., Korbolina E.E., Fursova A.Zh. and Kozhevnikova O.S. Senescence-Accelerated OXYS Rats: A Genetic Model of Premature Aging and Age-Related Diseases // ADVANCES IN GERONTOLOGY. 2014. vol. 27. no. 2. P. 336–340.
8. Ventura M.T., Casciaro M., Gangemi S., Buquicchio R. Immunosenescence in aging: between immune cells depletion and cytokines up-regulation // Clin. Mol. Allergy. 2017. vol. 15. P. 21–24. https://doi.org/10.1186/s12948-017-0077-0
9. Petrov I.M., Gagina T.A., Troshina I.A., Medvedeva I.V. Modern features of nutrition and immune system // Siberian medical journal. 2006. no. 6. P.10–14. [in Rus.]
10. Obukhova L.A., Skulachev V.P., Kolosova N.G. Mitochondria-targeted antioxidant SkQl inhibits age-dependent involution of the thymus in normal and senescence-prone rats // AGING. 2009. vol. 1. no. 4. P. 389–401.

Clarification of the reasons of aging of lymphoid tissue has special relevance because of increase in number of old people in the country and need of specification of pathogenesis and search of method of prevention. Aging of an organism affects in structure and function of many organs including lymph nodes, leading to decrease of protective function and development of immune insufficiency [1]. Lymph nodes are key elements of different lymphatic regions, and lymph nodes define a regional immunological homeostasis [2, 3]. There is an urgent need of a morph of functional assessment of lymph nodes depending on localization taking into account an age factor. There is no uniform theory of aging [4]. Researchers combine often the mechanism of aging and pathogenesis of immune insufficiency. Considering the aging problem, it is necessary to consider close functional linkages between homeostatic systems from which it is possible to distinguish peripheral lymphoid organs [5, 6]. It is impossible to consider separately age evolution and aging of lymphoid tissue without structural reorganization of lymph nodes. Emergence of model of senilism of the line of rats of OXYS [7] is an argument for studying morphological equivalents of aging of lymph nodes. Reactive changes of structure of lymph nodes not always find an explanation, especially in a syndrome of the accelerated aging.

The purpose of work is a research of age changes of lymph nodes of different localization at OXYS rats with a syndrome of premature aging and Wistar rats with the normal rate of aging.

Materials and research methods

Work is performed on rats males of the OXYS and Wistar lines according to “Rules of work with use of experimental animals” (86/609/EEC). Rats of the Wistar and OXYS lines are received from Center of collective use “Gene pools of laboratory animals” of Institute of cytology and genetics of the SB RAS. N.G. Kolosova is a holder of the license for OXYS rats. These rats have genetically caused defect, it is considered as an accelerated aging syndrome [7]. OXYS rats differ in low lifetime, early involute and pathological changes of internals, frequent developing of tumors in comparison with Wistar rats.

The experiment was executed on young and old white rats. The age of rats is 3 months and 1.5 years. We investigated by a morphological method of mesenteric, inguinal and tracheobronchial lymph nodes. Lymph nodes fixed in 10 % neutral formalin. After fixing we adhered to the classical scheme of washing, dehydration, imbibition with a xylol, paraffin and preparation histologic sections on the microtome. Histologic sections of lymph nodes painted hematoxylin and eosine, azure-II-eosine, trichromatic paint on Masson.

The morphometric analysis of structures of a lymph node was carried out by means of a morphometric grid and the Image-Pro Plus 4.1 program. Statistical data processing was performed with licensed statistical software package StatPlus Pro 2009, AnalystSoff Inc. Data were expressed as average arithmetic with definition of a standard (mean square) error. Belonging to normal distribution was defined when calculating criterion of Kolmogorov-Smirnov and the accompanying indicators. A P-value < 0.05 was considered statistically significant.

Research results and discussion

The theory of lymphoid aging is connected with an immunogenesis problem [5, 8]. It does necessary studying morphological manifestation of the immune response from peripheral lymphoid organs. It is known that regional lymph nodes are organs of lymphatic system, and lymph nodes possess transport and drainage function and high immune activity [1, 3, 6]. At natural (physiological) aging of involution of lymphoid tissue the stage of the maximum development of compartments of a lymph node precedes that corresponds three-month-old of young rats of Wistar [3, 6]. The indicator of a ratio of T- and B-zones makes more than unit at three months age of young rats, building a progressive row of lymph nodes: tracheobronchial – inguinal – mesenteric (Figure). Each of these lymph nodes differs with extent of development of structural and functional zones. Involution of adenoid tissue leads to structural destabilization of regional lymph nodes at old rats of Wistar.

popov1.tif

A ratio of T- and B-zones in lymph nodes of young (3 months) and old (1.5 years) white rats of Wistar and OXYS

The coefficient of a ratio of T- and B-zones almost changes in an inguinal lymph node at natural aging. The coefficient considerably decreases in a mesenteric lymph node and increases in a tracheobronchial lymph node (Figure). So, immunoactive zones have the following changes by 1.5 years at rats of Wistar (Tables 1-3).

The inguinal lymph node. There is an expansion of the area of the cortical plateau (in 1.2 times) a medullary sine and medullary cords (in 1.4-1.5 times) and reduction of the area of paracortical area (in 1.2 times), lymphoid follicles (in 1.9 times) in the inguinal lymph node.

The mesenteric lymph node. There is a reduction of the area of the cortical plateau (in 1.9 times), a paracortex (in 1.8 times), lymphoid follicles with the germinative center (in 4 times), a medullary sine (in 1.5 times) and expansion medullary cords (in 1.8 times) in the mesenteric lymph node.

The tracheobronchial lymph node. There is a reduction by 1.2-1.3 times of the area of the cortical plateau (in 1.2 times), a paracortex (in 1.3 times), lymphoid follicles (in 4.5 times), medullary cords (in 1.2 times) with an invariable width of a medullary sine in the tracheobronchial lymph node.

It is clear, there is a redistribution of the immunoactive compartments which are responsible for the immune response in lymph nodes of different lymphatic regions with age [3, 9]. A morphdynamics of natural aging in lymph nodes carries the region-dependent character. The obtained data prove implementation of the principle of a regional dominant according to the concept of the lymphatic region [2, 3].

Other morphological picture is observed in lymph nodes of premature aging of OXYS rats. Changes of lymphoid tissue are characterized more rapidly development without achievement of the maximum development of compartments. We observe various ratios of the areas of functional compartments in regional lymph nodes in premature aging of OXYS rats. The greatest changes are noted from T- and B-zones of lymph nodes. These zones are responsible for forming of the immune response on cellular and humoral type. The coefficient of a ratio of T- and B-zones less than unit also demonstrates prevalence in structure of lymph nodes a thymus-independent area at of OXYS rats at three-months age (Figure).

Indicators of structural and functional zones of lymph nodes are various at three-months age of OXYS and Wistar rats. We noted the following changes in lymph nodes of young rats of OXYS (Tables 1-3).

The inguinal lymph node. There is an increase in the area of the cortical plateau (in 1.9 times), a medullary sine (in 1.2 times) and reduction of the area of a paracortex (in 1.4 times), lymphoid follicles (in 3.4 times), medullary cords (in 1.6 times) in an inguinal lymph node

The mesenteric lymph node. There is a reduction of the sizes of the cortical plateau (in 1.8 times), a paracortex (in 2.8 times), lymphoid follicles (in 3.3 times), and increase in a medullary sine (in 1.5 times) in a mesenteric lymph node.

The tracheobronchial lymph node. There is a reduction of the area occupied by the cortical plateau (in 1.2 times), a paracortex (in 1.3 times), lymphoid follicles (in 3.4 times) and increase in the area occupied by medullary cords (in 1.3 times) at minor change of a medullary sine in a tracheobronchial lymph node.

The coefficient of a ratio of T- and B-zones remains low size in inguinal and mesenteric lymph nodes and increases in a tracheobronchial lymph node when aging by 1.5 years (Figure). It is connected with regress of the main structural and functional zones (a paracortex, lymphoid follicles) at expansion of medullary substance in lymph nodes of different lymphatic regions. Nevertheless, the T-zone dominates in a tracheobronchial lymph node that defines the immune response of cellular type.

Lymphoid follicles and medullary cords are a part a thymus-independent zone and differ at rats of OXYS from those at Wistar by the end of life. Premature aging leads to progressive reduction of the area of lymphoid follicles with the germinative center in an inguinal lymph node in 7.1 times, in mesenteric in 12.3 times, in a tracheobronchial lymph node in 16.1 times, up to their disappearance (Tables 1-3).

Lymphoid follicles are intended for performance of lymphopoietic function, filling up with lymphoid cells a lymph node. Cells of lymphoid follicles participate in forming of humoral immunity. Reduction of lymphoid follicles with the germinative center indicates decrease the immune response on humoral type. Increase of medullary substance at reduction of the area of a medullary sine is characteristic of OXYS rats lymph nodes. There is a noticeable thickening medullary cords to exposure of a reticular skeleton and their distribution on the most part in structure of a lymph node, turning it into a B-cellular zone. Changes of the structural organization of lymph nodes are the morphological sign of decrease immune protection progressing in process of aging at rats of OXYS.

Table 1

Structural and functional zones of the inguinal lymph node of OXYS and Wistar rats during the different age periods, %

Structures of the inguinal lymph node

WISTAR (n = 40)

OXYS (n = 40)

3 months

1,5 years

3 months

1,5 years

1

2

3

4

Capsule

1.46 ± 0.24

2.37 ± 0.18*

2.32 ± 0.25

3.05 ± 0.26*

Subcapsular sinus

1.06 ± 0.22

0.62 ± 0.05

1.13 ± 0.12

1.43 ± 0.11 °

Cortical plateau

2.01 ± 0.17

2.46 ± 0.16

3.78 ± 0.13*

3.23 ± 0.21* °

Lymphoid follicles

2.36 ± 0.21

1.26 ± 0.18*

0.70 ± 0.08*

0.33 ± 0.05* °•

Paracortex

7.46 ± 0.55

6.54 ± 0.51

5.20 ± 0.42*

3.74 ± 0.38* °

Mrdullary cords

5.21 ± 0.29

7.64 ± 0.80*

8.62 ± 0.43*

9.41 ± 0.59*

Medullary lymphatic sinus

2.17 ± 0.22

3.05 ± 0.22*

2.49 ± 0.16

3.61 ± 0.30*

 

Table 2

Structural and functional zones of the mesenteric lymph node of OXYS and Wistar rats during the different age periods, %

Structures of the mesenteric lymph node

WISTAR (n = 40)

OXYS (n = 40)

3 months

1,5 years

3 months

1,5 years

1

2

3

4

Capsule

5.47 ± 0.57

5.33 ± 0.62

5.54 ± 0.62

5.47 ± 0.52

Subcapsular sinus

3.50 ± 0.30

1.38 ± 0.30*

2.65 ± 0.26

1.45 ± 0.25*

Cortical plateau

7.63 ± 0.45

3.97 ± 0.20*

4.34 ± 0.36*

4.00 ± 0.17*

Lymphoid follicles

5.06 ± 0.25

1.25 ± 0.11*

1.52 ± 0.08*

0.41 ± 0.06* °

Paracortex

16.1 ± 1.26

9.17 ± 0.76*

5.66 ± 0.31*

5.37 ± 0.46* °

Mrdullary cords

10.7 ± 0.96

19.6 ± 1.01*

15.7 ± 0.93

21.7 ± 0.81*

Medullary lymphatic sinus

7.00 ± 0.48

4.45 ± 0.40*

4.69 ± 0.88*

3.17 ± 0,14* °

 

Table 3

Structural and functional zones of the tracheobronchial lymph node of OXYS and Wistar rats during the different age periods, %

Structures of the tracheobronchial lymph node

WISTAR (n = 40)

OXYS (n = 40)

3 months

1,5 years

3 months

1,5 years

1

2

3

4

Capsule

1.93 ± 0.22

3.51 ± 0.50*

2.52 ± 0.24

3.68 ± 0.35*•

Subcapsular sinus

1.68 ± 0.14

1.68 ± 0.14

1.58 ± 0.16

1.32 ± 0.16*

Cortical plateau

5.07 ± 0.36

4.26 ± 0.29

4.06 ± 0.27

5.23 ± 0.38•

Lymphoid follicles

3.86 ± 0.19

0.86 ± 0.10*

1.14 ± 0.14*

0.24 ± 0.03* °•

Paracortex

9.22 ± 0.82

6.82 ± 0.29*

6.89 ± 0.42*

5.67 ± 0.51*

Mrdullary cords

8.17 ± 0.36

6.54 ± 0.31*

10.8 ± 0.71*

7.78 ± 0.27•

Medullary lymphatic sinus

1.77 ± 0.17

1.79 ± 0.21

1.81 ± 0.10

1.96 ± 0.16

Note: in tables 1-3 *P1-2,3,4 < 0,05; °P2-4 < 0,05; •P3-4 < 0,05 – the level of statistical significance of differences between rats of different age.

Lymphatic regions is a part of the general protective system of an organism. Lymph nodes are the leading element of the region [3, 9]. Aging affects structure and functions of lymph nodes. The morphological option of the structure of a lymph node depends on localization and an originality of contact with external environment. A certain influence on structure and function of lymph nodes renders age of animals. Age changes of lymphoid tissue were various at Wistar and OXYS rats at natural and premature aging respectively.

The greatest changes underwent lymph nodes at rats of OXYS. It is known that a cornerstone of aging is decrease in protective function of lymphatic system including lymph nodes [1, 3, 6]. It is possible to assume that decrease in drainage and immune function of lymph nodes in the lymphatic region is the result of early involution of lymphoid tissue with disorganization of lymph nodes structure at OXYS rats. This creates conditions for development various age-associated diseases [4].

Structural and functional zones of lymph nodes reach the biggest development in young rats of Wistar. Genetic the defect in rats of OXYS constrains development of peripheral lymphoid organs. It leads to reduction of structures of cortical substance and expansion of medullary substance. Reduction of a paracortical zone can be an example of a morphological equivalent of decrease of the activity of the T-cellular immune system. First of all it is connected with early involution of a thymus gland [10].

Lymphoid follicles are other indicator of immune solvency of lymph nodes [9]. Lymphoid follicles are responsible for lymphopoietic function and form the immune response on humoral type. Lymphoid follicles are exposed to regress that demonstrates suppression of their function when aging. Other compartments of lymph nodes also change the sizes that forms a certain morphological option of the structure of a lymph node with low functionality. The variant of structure of a lymph node depends on features of the lymphatic region.

The structure of lymph nodes of OXYS old rats does not provide a drainage and the immune status of the lymphatic region. It increases risk of developing pathology. It should be considered by search of means of correction of senile changes of lymphoid tissue for increase of nonspecific resistance.

Conclusion

Morphodynamics of compartments of lymph nodes of different localization has distinctions at natural and premature aging. The imbalance of a ratio of T- and B-zones characterizes depression of function of lymph nodes depending on localization and age. The general is minimization of structures of cortical substance and increase medullary substance of lymph nodes. Changes of compartments sizes lead to forming of the immune response of humoral type for mesenteric and inguinal lymph nodes and the immune response of cellular type for the tracheobronchial lymph node. At the same time at rats of OXYS the aging happens the accelerated rates and regressive changes of lymphoid tissue are available already for young animals. The age-caused imbalance of compartments of a lymph node can be considered as a predictor of premature aging and as risk of developing pathology. Features of morphology of lymph nodes give the grounds to consider of OXYS rats as universal model of immune insufficiency for studying pathogenesis and development of correction methods.

The state task to research work № 0324-2019-0045-С-02, АААА-А19-119031590017-7.


Библиографическая ссылка

Popov V.V., Demchenko G.A., Gorchakova O.V., Gorchakov V.N. STRUCTURAL FEATURES OF LYMPH NODES IN DIFFERENT LYMPHATIC REGIONS AT THE NATURAL AND ACCELERATED AGING // European Journal of Natural History. – 2020. – № 4. – С. 19-23;
URL: https://world-science.ru/ru/article/view?id=34110 (дата обращения: 22.11.2024).

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