Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:4.6.1.1 (
adenylate cyclase
)
19,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two steroid-binding proteins circulate in plasma, corticosteroid-binding globulin and sex hormone-binding globulin. They both have several different but connected, physiologic functions. Each is the major determinant of the concentration of the physiologically important hormones that they bind.
CBG
regulates the concentration of free cortisol and progesterone, and SHBG regulates the concentration of free testosterone, dihydrotestosterone, and, to a lesser extent, estradiol. It is this small free fraction of the appropriate hormone that is the active principal in affecting hormone action. In the past few years, it has been shown that both of these proteins have high affinity, specific receptors on the plasma membranes of a variety of cells. It has also been shown that when SHBG's binding sites are occupied it cannot bind to its receptor; only unliganded SHBG can. There are, as yet, no published reports on the control of
CBG
binding by steroids. For both SHBG and
CBG
, if an appropriate steroid is present when the binding protein is itself bound to its receptor, rapid induction of
adenylate cyclase
activity and the accumulation of intracellular cAMP occur. Finally,
CBG
has been shown to be a member of the superfamily of serine proteinase inhibitors. When it is exposed to a serine protease, it is cleaved and release all, or most, of its bound cortisol.
...
PMID:Plasma steroid-binding proteins. 177 74
Recent advances in molecular endocrinology have shed a new light on the role and mode of action of
CBG
. It is now not only demonstrated that this plasma glycoprotein, a steroid carrier, can be internalized by glucocorticoid target tissues, but it is also certain that CBG mRNA is synthesized by extra-hepatic tissues. Moreover, some authors have reported a modulation of
CBG
properties by free fatty acids. The existence of
CBG
receptors (or high affinity membrane-binding sites), and even a positive effect of
CBG
on
adenylate cyclase
activity, have also been reported. To progress in the understanding of these diverse results, one must first integrate them in a general scheme where it is considered that
CBG
is a member of the SERPIN (SERine Protease INhibitors) superfamily. In the case of
CBG
, that means a protein which functions as a substrate for elastase at the surface of neutrophils, for instance at sites of inflammation.
CBG
is specifically cleaved by this protease at a precise site close to its carboxy-terminus. This induces a conformation change and disrupts the binding between glucocorticoids and
CBG
, and promotes a significant and local release of glucocorticoids (over 90% of them are bound to
CBG
in human plasma). In this context,
CBG
directs glucocorticoids to sites of inflammation, and plays in consequence a crucial role in efficient glucocorticoid action in physiology. The elucidation of the
CBG
sequence, the knowledge of its gene structure, and the discovery of its chromosomal localization near two other SERPIN genes, are three sets of data in concordance to demonstrate that
CBG
is a SERPIN; and this has allowed the understanding of a new role for
CBG
, possibly with important consequences in pathology. Moreover, it could be more appropriate to say that
CBG
is a member of the SERine Protease INhibitors and Substrates superfamily (SERPINS).
...
PMID:[A new role for corticosteroid binding globulin (CBG), member of SERPIN superfamily]. 182 99
Because it no longer seemed reasonable to us that the sole function of the steroid-binding proteins in plasma was to serve as a buffer reservoir for steroid hormones, we conducted experiments which sought out other possibilities. Both
CBG
and SHBG bind to cell membranes, and this interaction partakes of the general characteristics of peptide hormone-membrane receptor systems. Additionally, human
CBG
has the ability to cause an increase in the activity of membrane-bound
adenylate cyclase
in MCF-7 cells, and this, in turn, results in an increase in cellular cAMP content. Thus,
CBG
appears to be a protein hormone. As a first consideration, one might presume that because
CBG
's half-life is measured in days, it would be counted among the hormones which, for the most part, are tonic in their effects, e.g., thyroid hormone. However, two important considerations tend to believe this presumption: (1)
CBG
which is unoccupied by steroid is not hormonally active (Figure 5): (2) Depending upon the time of day, circulating
CBG
is approximately 0-60% occupied in normal humans. These observations result in a circumstance in which a substantial portion of circulating
CBG
is available for activation by bursts of cortisol secretion. It seems prudent to speculate that, because steroids are essential for
CBG
's activity, the hormonal role of
CBG
may be entwined with, or complementary to the steroids which it binds. Finally, we should comment on the impact that our model of
CBG
as a hormone has on the view that only unbound steroid can be hormonally active. First, it should be stated that we have not addressed this question experimentally. Although there is evidence that
CBG
may be required for cortisol action, we feel that an obligate role for it is not documented adequately. At this time, we believe that
CBG
's hormonal role is compatible with a hypothesis that encompasses the view that unbound steroid hormones can diffuse into cells in some tissues and that both free and bound steroid can enter cells in others. Obviously, the final word on these important topics, as always, awaits the proper experiments.
...
PMID:Are corticosteroid-binding globulin and sex hormone-binding globulin hormones? 305 81
In domestic ruminants such as the sheep, birth is effected through sequential maturation of the foetal hypothalamic-pituitary-adrenal (HPA) axis, leading to the increased output of cortisol. Factors regulating foetal pituitary adrenocorticotrophin (ACTH) secretion have been delineated, and these include corticotrophin releasing hormone (CRH), arginine vasopressin, prostaglandin (PG) E2 and endogenous opioids. The pre-partum increase in foetal plasma ACTH is associated with a rise in pro-opiomelanocortin (POMC) mRNA in the foetal pars distalis, and with an altered pattern of POMC post-translational processing. Foetal adrenal activation results from an increase in ACTH receptors and enhanced coupling through the Gs protein to
adenylate cyclase
, and increased expression of key steroidogenic enzymes including P450c17. Cortisol modulates the mechanism by which ACTH activates foetal adrenal function, through specific glucocorticoid receptors (GR) in the foetal adrenal cortex. Although the numbers of GR change with gestation, the relative abundance of GR mRNA does not, pointing to post-translational regulatory mechanisms. Cortisol also stimulates an increase in the concentration of its own high affinity binding protein (corticosteroid binding globulin;
CBG
) in the foetal circulation, apparently by increasing
CBG
gene expression in the foetal liver, and by altering the extent of foetal
CBG
glycosylation in a manner that would be expected to decrease the metabolic clearance of this glycoprotein. Clear evidence for placental CRH and ACTH production is lacking in sheep, but PGE2, produced in increasing amounts by the placenta during late pregnancy, may augment the drive to HPA maturation. Aspects of the maturational pathway of cortisol biosynthesis have been described in other species, including the horse, and some comparison is made with the more detailed information currently available from species such as the sheep.
...
PMID:Foetal endocrine maturation. 907 35
