Welcome to a new video from Science Academy in which today we are going to explain Male hormonal regulation. Let's start with a brief introduction. Male hormonal regulation refers to the complex system of hormones and mechanisms that control the development, functioning, and maintenance of male sexual characteristics, reproduction, and various aspects of metabolism. This process is primarily mediated by the endocrine system, which includes the glands that secrete hormones directly into the bloodstream. To explain Male hormonal regulation, I 'm going to do it using a diagram since these processes tend to be a little more complex and they're a little more difficult to understand. The only thing you will have to do is follow the diagram. As I mentioned previously, the diagram observed is the function of hormones in Male hormonal regulation. Testicular function is controlled by the hippocampus and the anterior pituitary. The hypothalamus is a small but crucial region of the brain that plays a central role in the regulation of many important bodily functions, including the release of hormones, the control of body temperature, appetite, thirst, and heart rates. It is located below the thalamus and above the Hypophysis is the pituitary gland to which it is connected by a thin stalk called the pituitary stalk as for the pituitary gland, also known as the pituitary gland, is the pea-sized endocrine gland located at the base of the brain. This gland is often called the master gland of the body because it produces hormones that regulate many vital functions and control the activity of other endocrine glands. The hypothalamus connects directly to the pituitary gland these connections allow the hypothalamus to control the secretion of pituitary hormones which in turn regulate other endocrine glands in the body. The hypothalamus secretes gonadotropin-releasing hormone (GnRH) also called GnRH which stimulates hormone production by the anterior lobe of the pituitary gland, the anterior pituitary gland, the follicle-stimulating hormone (FSH) and the thyroid-stimulating hormone (LH). GnRH is released by the hypothalamus in a pulsatile manner and causes a stimulatory effect. the secretion of gonorrhea tropin gnrh is secreted in the hypothalamus and pituitary gland to release lh and fsh lh will act as receptors on leukocytes and T E2 in blood refer to the measurement of estradiol levels formed testosterone that would be considered a target organ since it would act by reacting to an internal and external stimulus while the fch acts as receptors on sertoli cells which would be the germ cells more inulins during spermatogenesis both fch and lh will act with an androgen binding protein abp specifically we find abp 5ht which is a metabolite of testosterone and a more potent androgen than testosterone which will cause the inhibition of sperm thanks to the hormone inhibin On the other hand and due to the negative feedback process the hormones produced in the testicle exert inhibitory effects on the secretion of fch and lh this negative feedback process will be carried out thanks to some neurotransmitters which will be dopamine and endorphin to the anterior pituitary in the case of Sertoli cells and in the case of Leidig cells t E2 negative feedback effect in the hypothalamus and the anterior hip can also occur the event of positive feedback with the neurotransmitter of norepinephrine and the set of substances of Prostaglandin in the case of Sertoli cells the retrolental to its cycle in the anterior pituitary and in the case of Leidig cells they would return both in the anterior pituitary and in the hypothalamus I hope you liked this video a lot do not forget to hit the bell and subscribe so you don't miss any more Goodbye Thank you very much [Music]