Role of endocrine system in vital activity of the organism

The endocrine system  relates the most important regulatory systems. It carries out regulatory influence with the help of hormones practically on all functions of an organism – metabolism , growth, reproduction, mental activity, adaptation, functional activity of all organs.


Hormones can be synthesized:

а) by epithelial cells (one’s own glandular ephithelium );

b) by neuroendocrine cells (hypothalamic cells);

c) by myoendocrine cells (muscular fibres  of  heart atriums).

According to chemical nature they differentiate:

а) steroid hormones (mineral – and glucocorticoids, female and male sexual hormones);

b) derivatives of aminoacids (thyreoid hormones, catecholamines, melatonine);

c) protein peptide hormones (releasing-hormones, vasopressin, oxytocin, hormones of adenohypophysis, insuline,  glucagone, parathyrin, calcitonine).

According to functional effects hormones can be:

а) affectors (act directly on organs - targets);

b) tropic (regulate synthesis of effecting homones);

c) releasing-hormones (regulate synthesis and secretion of tropic hormones).


Etiology of endocrine disorders

Reasons and kinds of endocrine disorders. Among numerous ethiological factors of endocrine disorderss it is possible to select the following main ones: a mental trauma, necrosis, tumour, inflamatory process, bacterial and viral infections, intoxications, local disorders of blood circulation (hemorrhage, thrombosis), alimentary disorders (deficiency of iodine and cobalt in food and drinking water, redundant consumption of carbohydrates), ionising radiation, inherent chromosome and gene defects.

There are three variants of endocrine functions disorders :

1. Hyperfunction of endocrine glands

2.  Hypofunction of endocrine glands

3.  Disfunction of endocrine glands.

Disfunction is characterized by different changes of hormonal production and production physiologic active precursors of their biosynthesis in the same endocrine gland or synthesis and entering  in blood of atypical hormonal products.

Pathogenesis of endocrine disorders

The mechanisms of function disorders  of an endocrine gland can be various depending on localization and character of process. In pathogenesis of endocrine disorders it is possible to select three main mechanisms:

1) Disorders of regulation of endocrene glands disregulatory disorders;

2) Disorders of biosynthesis of hormones and their secretion glandular disorders;

3) Disorders of the transport, reception and metabolism of hormones – peripheral disorders.


Disorders of endocrine gland regulation

Regulation of endocrine gland activity can be carried out with the help of four mechanisms:

1. Nervous (impulse-mediators) or parahypophysis regulation. With the help of direct nervous influences the activity of following structures is regulated: а) adrenal medulla; b) neuroendocrine structures of hypothalamus; c) epiphysis.

2. Neuroendocrine or transhypophysar regulation. It is carried out by neuroendocrine cells of hypothalamus, which transform nervous impulses in specific endocrine process. Along releasing-hormones, which regulate activity of adenohypophysis are synthesized and get secreted in the system of portal vessels of hypophysis .

3. Endocrine regulation. It is that some hormones influence on synthesis and other influence secretion of the others. An example of this mechanism is the influence  of adenohypophysis tropic hormons on activity of adrenal cortex, thyroid gland, sexual glands.

4. Non-endocrine humoral regulation is carried out by unspecific humoral factors, in particular by metabolites, ions.

Pathological processes which are primarity developed in hypothalamus lead to disorders of transhypophysar and parahypophysar regulation of endocrine glands function. The activity of hypothalamic centres can be disturbed also secondarily in connection with disorders in limbic system (hypocampus, tonsil, olfactory brain) and upper parts of central nervous system which are closely connected with hypothalamus. At that the large role belongs to mental trauma and other stress  influences.

Transhypophysar regulation includes synthesis of peptides which are moving by axons and reach adenohypophysis in neurosecretory cells of  mediobasal part of hypothalamus. Here they either stimulate or inhibit formation of tropic hormones. Stimulating peptides have received the name of liberins or releasing-factors, they are: thyroliberin, gonadoliberin, somatoliberin etc. inhibiting peptides are named statinsthyrostatin, somatostatin etc. Their ratio among themselves is determined formation of appropriate tropic hormone. Then formation of tropic hormones begins  in adenohypophysis somatotropic (STH), gonadotropic (GTH) etc. Tropic hormones act on appropriate targets and stimulate derivation of hormones in appropriate glands, and STH stimulates  formation  of somatomedines  in tissues polipeptide hormones, through which they act.

By means of parahypophysar mechanism secretory, vessel and trophic influence of CNS on the function of endocrine glands is carried out . For adrenal medulla, Langerhansislets and parathyroid glands it is a major pathway of their regulation. In realization of the function of other glands both pathways of regulation take place. So, the function of thyroid gland is determined not only by TTH, but also by sympathetic impulsation. The direct irritation of sympathetic nerves increases  absorption of iodine by the gland, synthesis of thyroid hormones and their secretion. Denervation of ovaries causes their atrophy and weakens response on gonadotropic hormones.

The disorders of trans- and parahypophysar regulation leads to disfunction of endocrine glands. The disturbanc   of one gland function is called monoglandular process,  several glandspluriglandular process. The disorders of the glandular function can be partial, when production of only one hormone  is disturbed, or total, when secretion of all hormones is changed.


Role of mechanisms feedback bond in endocrine disturbances

The mechanism of feedback bond is  obligated link in self regulation of glandular activity. The essence of negative adverse effects is that formed hormones oppress activity of structures which carry out the previous stages of regulation. Therefore the increase of secretion of effectory hormone through  certain parts causes decrease of its formation and entering in blood, and on the contrary, the decreasing of the  hormone contents in blood causes increase of intensity of its formation and secretion. In this way regulation of cortizol secretion, thyroid and sexual hromones is  carried out.

By the principle of the mechanism of feedback bond inhibition of the function (even atrophy) of the gland during treatment by their or other hormones can occur.


Disorders of hormones biosynthesis and their secretion

Strictly glandular disorders of endocrine functions can be conditioned:

1. By changes of functionally active endocrine cells amount :

a) by decrease of their amount (removal of gland or its part, damage, necrosis), that results to endocrine hypofunction;

b) by increase of their amount (benignt and malignant tumors of glandular epithelium) that is accompanied by features of endocrine hyperfunction.

2. Qualitative changes in cells:   

 a) by disorders of biosynthesis of hormones;

b) by disorders of processes of their secretion.

The main possible reasons of protein-peptide hormones synthesis disorders    are:

1) disorders of transcription;

2) disorders of translation;

3) deficiency of essential aminoacids;

4) deficiency of ATP;

5) disorders of posttranslatory modification and activation.


Disorders of transport, reception and hormones metabolism.

The peripheral mechanisms determine activity of hormones excreted into blood , development of peripheral disorders of endocrine functions occurs due to:

1.  Disorders of the hormones transport in organism.

2.  Disorder of metabolic inactivation of hormones.

3.  Disorders of interaction of hormones with peripheral cells - targets.

All hormones is excreted from gands associate with proteins in blood  and circulate in two forms – connected and free. From these two forms connected hormone is  biologically inactive. The activity is peculiar only to free form of hormone.

The disorders of the hormone transport in an organism can appear in two types of endocrine function disorders:

а) hypofunction  increase of hormone binding and decrease of its contents in the free form;

b) hyperfunction  decrease of hormone binding and increase in blood of concentration of the free form.



Disorders of endocrine functions, connected with disturbances of interaction of hormones with peripheral cells

The influence of hormones on cells - targets is carried out through their action on specific proteins – receptors and is performed in three ways:

1) influences on permeability of biological membranes;

2) stimulation or oppression of enzymes activity;

3) influences on the genetic apparatus of a cell.

There are two types of cytoreception of hormones.

1. Membrane type of cytoreception. It is the main mechanism of action of protein- peptide hormones and catecholamines. Nowadays we known secondary intermediaties which are represented by the following substances:

a) cyclic nucleotides - cAMP, cGМP;    

b) ions of Са++;

c) phospholipide messangers- diacilglycerol (DAG) and inozitoltriphosphate (ITP).

The specificity of the answer of a cell on this or other hormone is determined by specificity of the receptor, which is connected only with a certain hormone, and also by nature of specific to a cell proteinkinase and protein substrats.

2. Intracellular  type of cytoreception. It is in the base of  mechanism of steroid and thyroid hormones action.

The blockade of hormonal receptor is the widespread mechanism, which results to hormonal insufficiency: active hormone does not find receptor on a cell or in it  because of receptor  loss or fixing on its surface of antagonist, conformation changes of the receptor, which interfere connection with the hormone. Usually concentration of hormone in such cases is normal or increased. The introduction of the hormones with the medical purpose is not accompanied by appropriate effect.



Disorder of endocrine functions, connected with disturbances of hormones metabolism

The destruction of protein-peptide  hormones is realized in liver with the help of peptidase enzymes.

The disturbances of metabolic hormones transformations can stimulate development of peripheral disorders of endocrine  function. So, in case of slowing- down of hormones inactivation their contents in blood is increased, that appears in glands hyperfunction. And on the contrary, the accelerated transformation of hormones in their inactive forms is accompanied by development of endocrine hypofunction.

In  hepatitis and  cyroses of a liver  hormones metabolism is oppressed.


Role of pituitary gland in peripheral endocrine gland function

There are  panhypopituitarity and partial hypopituitariti.

Panhypopituitarity – is the decrease of formation of  all adenohypophysis hormones. The following clinical forms of  panhypopituitarity are known:

1) Hypophysar cachecsia of Simonds;

        2) Afterbearing necrosis of hypophysis – syndrome of Schegan;

       3) Chromophobe hypophysis adenomas, i.e. tumors, which grow from chromophobe cells. For want of it the tumour squeezes and damages glandular cells  of adenohypophysis.

The clinical manifestations of panhypopituitarity are connected with deficiency of adenohypophysis hormones and disorders of activity of peripheral endocrine glands (thyroid gland, cortex of adrenal, sexual glands). The first symptoms of lesion of adenohypophysis occur in damage of 70-75 % of  gland tissue, and for development of complete picture of panhypopituitarity destruction of 90-95 %  of adenohypophysis is necessary. Vessels disorders in hypophysis and hypothalamus (most frequently afterbearing longtime spasm of vessels of brain and hypophysis owing of haemorrhage), trauma of the skull basis, tumour of hypophysis and hypothalamus, inflammatory damage (tuberculosis,sepsis) of hypophysis, inherent aplasia and hypoplasia can lead to development of panhypopituitarity. The most frequently gonadotropic function of hypophysis and secretion of STH is damaged with the consequent connection of nonsufficient secretion of ТТH, ACTH and prolactine.

Partial hypopituitarity is the disorder of formation of separate hormones of  adenohypophysis (not all). The following variants of partial hypopituitarity are described:

1) Hypophysar nanism (dwarfishness) - deficiency of STH;

2) Secondary hypohonadism - deficiency of FSH and LH;

3) Secondary hypothyrosis - deficiency of TTH;

4) Secondary hypocorticism - deficiency of ACTH.

The insufficiency of STH results to development of hypophysar dwarfishness, or nanism and appears by such disorders:

1) decrease of intensity of protein synthesis that leads to delay and stop of growth (more than 30 % from average) and development of bones, internal organs, muscles. The disorders of protein synthesis in connective tissue results in loss of its elasticity;

2) decrease of inhibiting action of STH on an absorption of glucose with predominance of insulinic effect and development of hypoglycemia;

3) fallout of fat mobilizing action and tendency to obesity.

The insufficiency of ACTH leads to secondary partial insufficiency of adrenal cortex. The glucocorticoid function suffers mainly. Mineralocorticoid function practically does not vary.

Insufficiency of TTH causes secondary decrease function of thyroid gland and development of secondary hypothyrosis symptoms. As against in case of primary hypofunction of thyroid gland the introduction of TTH can restore its function.

 Insufficiency of gonadotropic hormones results in decrease of ability of Sertoli cells to accumulate androgens and oppression of spermatogenesis and ability to impregnation in men. In case of defect of LG hormone the function of Leidig’s cells is infringed, the formation of androgens ceases and develops eunuchoidism with preservation of partial ability to impregnation, as the process  of spermatozoids maturing does not stop.

Hyperfunction of adenohypophysis (hyperpituitarism)

The main reasons of hyperpituitarism development are the benign tumours – adenomas of endocrine cells.

There are  two groups of adenomas.

1. Eosinophilic adenoma, develops from acidophilic cells of adenohypophysis forming STH. Clinically hyperproduction of STH appears by giantism (if adenoma develops in children and young people before closing of epiphysar cartilages) and acromegalia (in adult).  Giantism is characterized by the proportional increase of all body components.

Acromegalia appears by increased growth of hands, legs, chin, nose, tongue, liver, kyphoscoliosis. Besides that  increased metabolic activity of STH -hyperglycemia, insulin resistanse, even to development of metahypophysar diabetes, fatty infiltration of  liver develop.

2. Basophilic adenoma, grows from basophilic cells of adenohypophysis which more often produce ACTH. During this the Itsenko-Cushing disease develops. It is characterized by: а) secondary hypercorticism; b) strengthened pigmentation of skin. There are tumors which produce other hormones of adenohypophysis less often: TTH, gonadotropic hormones, prolactin, MSH.

The increased level of ACTH during this disease is combined with increase of  level of other products of proopiomelanocortin.


Hyperfunction of neurohypophysis

Leads to redundant production vasopressin and oxytocin. Their main effects:

Vasopressine (antidiuretic hormone) renders the following influence through V1 and V2 receptors:

1) Acting on tubulus contortus distalis and collective tubules of kidneys, strengthens reabsorption of water;

2) Causes contraction of smooth muscles of blood vessels;

3) Strengthens glycogenolysis and gluconeogenesis in liver;                  

4) Stimulates consolidation of memory traces and mobilization of  saved information (hormone of memory);

5) Endogenic analgetic (depresses pain).

Oxytocin renders the following functional influences:

1) Stimulates secretion of milk (lactation) causing contraction of myoepithelial cells of small-sized ducts of mammary glands;

2) Initiates and strengthens contractions of uterus of pregnant woman;

3) Worsens storing and mobilization of information (amnestic hormone).

Redundant secretion of vasopressin arises in tumors of different tissues forming vasopressin, and also in disorders of hypothalamic endocrine function regulation. Its main manifestation is hypervolemia leading to development of constant arterial hypertension.

Hypofunction of neurohypophysis

Insufficient production of vasopressin results to development of diabetes insipidus. There are two  pathogenetic variants: central (neurogenic) during which will a little quantity of vasopressine, is formed and nephrogenic during which the sensitivity of epithelial cells receptors of distal nephron parts and collective tubules to vasopressin action (absence or a little quantity receptors) is reduced. The decreasing of water reabsorption in kidneys results to poliuria and decreasing of circulatting blood volume  (hypovolemia), falling  of arterial pressure and hypoxia.

The decreasing of oxytocin production appears by disorders of lactation, weakness of labor activity.

Disorders of adrenal gland function

The most frequently there are following manifestations:

1) Hypofunction of adrenal cortex - hypocorticism;

2) Hyperfunction of fascicular zone - syndrome of Itsenko-Cushing;

3) Hyperfunction of glomerulose zone - hyperaldosteronism;

4) Dysfunction of adrenal cortex - adrenogenital syndrome.


Insufficiency of adrenal cortex

According to etiology there are  primary and secondary kinds of adrenal cortex insufficiency. Primary insufficiency arises as a result of adrenals injury, secondary is connected with the defeat of hypotalamus (deficiency of corticoliberin), or with hypofunction of adenohypophysis (deficiency of ACTH). Insufficiency of corticosteroids can be total when the operation of all hormones drops out, and partial fallout of activity of one adrenal hormone. Insufficiency of adrenal cortex can be acute and chronic.

Examples of acute insufficiency are:

а) state after removal of adrenals;                

b) hemorrhage in adrenals which arises during sepsis, meningococci infection (syndrome Waterhouse-Friderixan);

c) syndrome of cancellation of glucocorticoides preparations.

 Fast falling of the adrenals function causes development of collaps and the patients can die during the first day.

The chronic insufficiency of adrenals cortex is characterized for Adison’s disease (bronzed disease). The most often reasons of it are:

а) tuberculose destruction of adrenals;

b) autoimmune process.


І. Manifestation, connected with the falling of mineralocorticoids functions of adrenal cortex:

1) dehydration develops owing to loss of sodium ions (decreases rearbsortion) with the  loss of water (poliuria);

2) arterial hypotension is stipulated by decrease of circulating blood volume;   

3) hemoconcentration (condensation of blood) is connected with liquid loss, results to disorders of microcirculation and hypoxia;

4) decreasing of kidney blood circulation is stipulated by increase of arterial  pressure with disturbances of glomerular filtration and development of intoxication (nitrogenemia);

5) hyperpotassiumemia is stipulated by decrease of canales secretion of  potassium ions and their output  from the damaged cells. It causes disorders of  function of arousing tissues;

6) distal canales acidosis. It is connected with disorders of acidogenesis in distal nephron canales;

7) gastro-intestinal disorders (nausea,vomiting, diarrhea). Loss of sodium (osmotic diarrhea) and intoxication have significant meaning. This disorders without appropriate correction result to death.

ІІ. Manifestations stipulated by disorders of glucocorticoid function of adrenals. To such manifestations concern:

1) hypoglycemia which results to starvation;            

2) arterial hypotension (permissive reaction on catecholamines);

3) decrease reaction of fat tissue on lipotropic stimules;

4) decrease resistance of an organism on action of different pathogenic factors;

5) decrease of ability to remove water during water load (water poisoning);

6) muscular weakness and fast tiredness;

7) emotional disorders (depression);

8) delay of growth and development of children;

9) sensor disorders - loss of ability to distinguish separate shades gustatory osmetic acoustical sensations;

10) distress-syndrome of a newborn (hyalinic membranosis). It is stipulated by disorders  of surfactant formation in lungs owing to what lungs are not straightened after birth  of a child.


Increase of adrenals cortex function

 Hyperaldosteronism. Arises during hyperfunction of glomerular zone  of adrenals cortex, which produce mineralcorticoides.

There are primary and secondary hyperaldosteronism.

 Primary hyperaldosteronism (Conn syndrome) arises in adenoma of  zone glomerular, which secretes high quantity of aldosteron. Main manifestations of this disease:

1) arterial hypertension. It is connected with increase of sodium  contents  in blood and in wall of blood  vessels, after what  the sensitivity of their smooth muscles to action of pressore factors,  particularly catecholamines increases. 

2) hypopotassiumaemia (result of hypersecretion  of potassium ions in canaliculas of kidneys). It causes  disorders of arousing organs  and tissues (disorders of heart activity, miostenia, pareses);

3) ungas alcalosis. It is connected with amplification of acidogenesis in distall nephron canaliculas;

4) polyuria  arises as a consequence  sensitivity of kineys canales epithelium loss to action of vasopressin. It explains absence of volume increase of circulatting blood and edema.

Secondary hyperaldosteronism is a result of renin-angiotensin  system activation.  This state appears by:

a) arterial hypertension;

b) edemas;                                   

c) hypopotassiumaemia;

d) ungas alcalosis.

There are two clinical forms of hypercorticism with hyperproduction of glucocorticoides:

1. Cushings disease – basophil adenoma of anterior hypophysis part.

2. Cushings syndrome:

а) tumoral – adenoma of zona fasticulata of adrenal cortex;

b) ectopic production of АCТH by some malignant tumors (pulmonar cancer);        

c) iatrogenic – introduction of glucocorticoides in an organism with the medical purpose.



Glucocorticoid hypercorticism appears by:

1) arterial hypertension;                    

2) hyperglycaemia – metasteroid diabetes mellitus;

3) obesity;

4) development of infectious diseases without signs of an inflammation;

5) gastric hypersecretion and formation of ulcers in stomach and duodenum; 6) osteoporosis;

7) muscular weakness;

8) slow  of wounds healing.

Adrenogenital  syndrome results from the hereditary stipulated blockade of cortisole synthesis  and amplified formation of androgens from general intermediate products.


Adrenogenital  syndrome

Depending on the  level of blockade of cortisole  synthesis there are   three variants of adrogenital syndrome.

І. Disorders of early stages of synthesis – deficiency of glucocorticoides, mineralcorticoides and androgens hyperproduction. Manifestations: signs of insufficiency of gluco- and mineralocorticoidal functions of adrenal cortex features of early sexual maturing in  males, virilization in women (appearance of man's sexual features).

ІІ. Disorders of intermediate stages – deficiency of glucocorticoides, surplus of androgens,  formation of mineralocorticoides is not infringed (classical androgenic syndrome). Manifestations are the same, as in the first case, only without signs of insufficiency of mineralocorticoidal function.

ІІІ. Disorders at final stages of cortirol synthesis – deficiency of glucocorticoides, hyperproduction of androgens and mineralocorticoide.  Features of hyperaldosteronism are connected with manifestations of classical androgenital syndrome.


Disorders of adrenal medulla function

Hypofunction of adrenal medulla  happens seldom because of the fact that these  functions can be accepted  by other chromaphine cell.

Hyperfunction of adrenal medulla  arises during tumors of chromaphine        cells – pheochromocytome. Appears by arterial hypertension, tachycardia, extrasystole, flatering of atriums, hyperglycaemia, hyperlipidaemia, hyperthermia.  Development of moderately expressed diabetus, thyreotoxicosis is possible. In time of paroxizm  vertigo, headache, hallucinations, increased excitability of the nervous system, cramps appear.


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