There is some evidence that it can. However, in some men, low levels of testosterone have been seen as the cause of an increase in belly fat. Controversy still exists about which causes which.
It should also be noted: that belly fat should not be taken as symptomatic of a low testosterone level. There are many men and women who have no testosterone problem, and have accumulated belly fat.
Only a doctor can tell you if testosterone levels are causing belly fat, or the other way around.
Thyroid releasing hormone (TRH) is released when thyroid hormones are low. Increased thyroid hormone production would serve to inhibit/decrease TRH release.
the correct answer is melatonin. Have a lovely day :)
Glucagon, adrenaline, cortisol and growth hormone.
The sympathetic inhibits the production of saliva.
zinc salt of L-pyrrolidone carboxylic acid. It inhibit the enzyme that catalyses the production of dihydroxytestosterone, a hormone that controls sebaceous gland activity. Zinc is also an antibacterial, and its salts are used to control dandruff.
LH ( luteinising hormone) is stimulated by oestrogen and secreted by the pituitary gland. As oestrogen levels rise it will inhibit the production of FSH (follicle stimulating hormone) and will encourage the production of LH. As LH rises to a peak in the middle of the menstrual cycle, they will stimulate the release of a mature egg.
Most prescription drugs are not known to affect the sperm production.
Substances that inhibit the production or the action of transcriptase, which is an enzyme.
Hormones that inhibit gastric secretion include secretin. It is a type of hormone that is released into the bloodstream by the duodenum.
D-cells, or Delta cells, can be found in the stomach, intestine, or Islets of Langerhans (the hormone producing regions of the pancreas which also produce glucagon and insulin). Delta cells produce somatostatin, a regulatory hormone. When somatostatin is released it interacts with specialized receptor cells, these cells control the production of other hormones. Somatostatin coming in contact with a somatostatin receptor will inhibit the production of hormones that receptor controls.
They can do either one, depending on what hormone you are talking about, if it is functioning correctly, and the stage of your life.
This accounts for Growth Hormone Regulatory Hormone, also called Growth Hormone Releasing Hormone, and also GRHF (for Growth Hormone Regulatory Factor). This is one of the two hypothalamic hormones (or previously named 'factors') that, respectively, stimulate or inhibit the release of growth hormone from the pituitary gland. The other hormone that inhibits the release of growth factor is called Growth Hormone Releasing-Inhibiting Hormone (or factor).