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Human Inhibin A, a glycoprotein belonging to the transforming growth factor (TGF)-β superfamily, is predominantly secreted from the gonads. It plays a crucial role in regulating gonadal function and development by inhibiting the secretion of follicle-stimulating hormone (FSH) from the anterior pituitary. The FSH-inhibiting activity of inhibin was first discovered in the 1970s, and the isolation of the FSH-inhibiting factor "inhibin" was achieved in 1985 from porcine and bovine follicular fluid.

57285-09-3

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57285-09-3 Usage

Uses

1. Used in Reproductive Medicine:
Human Inhibin A is used as a diagnostic biomarker for assessing ovarian reserve and monitoring the effectiveness of fertility treatments. It helps in the early detection of various reproductive disorders and provides valuable insights into the patient's response to fertility treatments.
2. Used in Oncology:
Human Inhibin A is used as a tumor marker for certain types of cancers, particularly those affecting the gonads, such as ovarian and testicular cancers. Elevated levels of inhibin A can indicate the presence of a tumor, aiding in the diagnosis and monitoring of cancer progression.
3. Used in Endocrinology:
Human Inhibin A is used as a research tool for studying the complex interactions between the pituitary gland, gonads, and the hormonal regulation of the reproductive system. It helps researchers understand the underlying mechanisms of various endocrine disorders and develop targeted therapies.
4. Used in Drug Development:
Human Inhibin A serves as a potential therapeutic target for the development of new drugs aimed at treating reproductive disorders, infertility, and certain types of cancer. By modulating the activity of inhibin A, these drugs could potentially restore hormonal balance and improve reproductive health.
5. Used in Prenatal Screening:
Human Inhibin A is used as a component of maternal serum screening for Down syndrome and other chromosomal abnormalities during pregnancy. Its levels in maternal blood can provide valuable information about the risk of these conditions, enabling healthcare providers to make informed decisions about further diagnostic testing and management.

Properties

Mr approx. 32,000 (mature inhibin). Additional Mr forms of 55,000–105,000 exist due to the processing of the precursor (Mr 105,000).5 pI 6.9–7.3. Stable in 8M urea. Dissociated to two subunits in 2% (v/v) 2-mercaptoethanol

Gene, mRNA, and precursor

The inhibin α- and β-subunits are encoded by separate genes. The human inhibin α-subunit gene, INHA, location 2q35, consists of two exons. The α-subunit mRNA has 1098 b that encode a precursor comprised of three domains: the prodomain, the αN domain, and the αC domain. The human βA-subunit gene, INHBA, location 7p14.1, consists of two exons. The human βB-subunit gene, INHBB, location 2q14.2, consists of two exons. The INHBA and INHBB mRNAs have 1278 and 1221 b, respectively. The precursor β-subunits consist of a prodomain at the N terminus and a mature βA or βB domain at the C terminus.?The coexpression of inhibin α- and β-subunit genes suggests the production of inhibin molecules. In females, mRNAs for α-, βA-, and βB-subunits are localized in the granulosa cells of mammals, birds, and fish. mRNAs for α- and βA-subunits are localized in the luteal cells of humans and primates and in the placenta of mice and humans. In males, α-, βA-, and βB-subunit mRNAs are localized in Sertoli cells and Leydig cells. These mRNAs are also detected in the adrenal cortex.

Synthesis and release

FSH, cAMP, and forskolin stimulate the secretion of inhibins from granulosa cells and Sertoli cells in various mammals. Inhibin production from granulosa cells is suppressed by the epidermal growth factor (EGF). Inhibin production in primate and human luteal cells is promoted by the luteinizing hormone (LH) and human chorionic gonadotropin (hCG). Adrenocorticotropic hormone (ACTH) stimulates inhibin secretion from adrenal cortex cells. In the chicken, theca cell-derived bone morphogenetic protein (BMP) stimulates inhibin production from granulosa cells.6 In zebrafish, oocyte-derived BMP stimulates inhibin production from ovarian follicle cells.

Receptors

A specific receptor for inhibin has not been identified. It is now accepted that inhibin actions result from the antagonism of activin signaling in the presence of betaglycan. Human betaglycan (type III TGF-β receptor) has 851 aa residues that are expressed on the surface of pituitary cells, granulosa cells, theca cells, Sertoli cells, Leydig cells, and adrenal cortex cells. It consists of an extracellular domain, a transmembrane region, and a short intracellular domain but lacks a signaling domain. Inhibins bind to activin type II receptors via their β-subunits, and to betaglycan via the α-subunit to form a stable complex. The complex occupies activin type II receptors and prevents activin from activation of the type I receptors, resulting in a blockade of the Smad 2/3 signaling pathway.

Biological functions

Inhibins suppress the expression of the FSH β-subunit in the pituitary, and thereby regulate gonadal functions and development. In addition, inhibins have paracrine and autocrine effects in various cells.?Inhibin α-subunit gene knockout mice develop Sertoli cell tumors in males and granulosa cell tumors in females. When the knockout mice were gonadectomized, the life expectancy increased; however, these mice developed adrenal tumors around 30 weeks of age. Inhibin βA-subunit gene knockout mice die perinatally and have defects in tooth, palate, and retinal formation.

Clinical implications

From the findings that inhibin α-subunit knockout mice develop gonadal and adrenal tumors, the α-subunit gene is expected to act as a tumor suppressor gene. However, no consistent gene mutations have been identified in cancer patients. Correlated with tumor growth, inhibin production is enhanced in several types of adrenal and gonadal tumors. Women affected with premature ovarian failure show low serum levels of inhibin A and inhibin B. A decrease in testicular inhibin B production is noted in men with testicular dysfunction. Pregnancies affected with Down’s syndrome accompany high circulating concentrations of inhibin A. Hyperplasia of the adrenal cortex (Cushing’s syndrome) often raises inhibin A secretion from the adrenal gland.

Clinical Use

Inhibin levels in the circulation are a reliable marker for granulosa cell tumors and serous and mucinous epithelial carcinomas. This may be true for granulosa cell tumors in mares. Evaluation of plasma inhibin A levels until the second trimester of pregnancy is useful for screening for Down’s syndrome. The circulating inhibin B is a good predictor for the conditions of spermatogenesis. High levels of inhibin are noted in humans, rats, and dogs with Leydig cell tumors, whereas a low level clinically suggests a premature ovarian failure.

Structure and conformation

Inhibins and activins are structurally related glycoprotein hormones. Inhibins are disulfide-linked heterodimers composed of an α-subunit and either a βA-subunit (inhibin A) or a βB-subunit (inhibin B), whereas activins are homodimers or heterodimers made up of βA- and βB-subunits. The monomeric α-subunit, devoid of FSHsuppressing activity, has also been identified in follicular fluid. The α-subunit has N-linked glycosylation sites and their degree of glycosylation modifies biological activity. An approximate 80% identity is seen in the sequences of the human, porcine, bovine, and rat α-subunits . The mature βA-subunit shares the same aa sequence among the above species while the βB-subunit shows an approximate 90% identity. The human βA- and βB-subunits share 64% aa sequence identity.

Check Digit Verification of cas no

The CAS Registry Mumber 57285-09-3 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 5,7,2,8 and 5 respectively; the second part has 2 digits, 0 and 9 respectively.
Calculate Digit Verification of CAS Registry Number 57285-09:
(7*5)+(6*7)+(5*2)+(4*8)+(3*5)+(2*0)+(1*9)=143
143 % 10 = 3
So 57285-09-3 is a valid CAS Registry Number.

57285-09-3Upstream product

57285-09-3Downstream Products

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