Prolactin ELISA Kit

Catalog No. ABIN577076

This Colorimetric ELISA kit is designed for the quantitative measurement of Human Prolactin.

Quick Overview for Prolactin ELISA Kit (ABIN577076)

Target: Prolactin (PRL)

Reactivity: Human

Detection Method: Colorimetric

Method Type: Sandwich ELISA

Application: ELISA

Product Details Prolactin ELISA Kit

Purpose: This Prolactin enzyme linked immunosorbent assay (ELISA) applies a technique called a quantitative sandwich immunoassay. The microtiter plate provided in this kit has been pre-coated with a monoclonal antibody specific for Prolactin. Standards or samples are then added to the microtiter plate wells and Prolactin if present, will bind to the antibody pre-coated on the wells. In order to quantitate the amount of Prolactin present in the sample, a standardized preparation of horseradish peroxidase (HRP)-conjugated polyclonal antibody, specific for Prolactin are added to each well to

Analytical Method: Quantitative

Sensitivity: The minimal detectable concentration of human Prolactin by this assay is estimated to be 1.5 ng/mL.

Components: Standards: 1 set/2 vials

Application Details

Plate: Pre-coated

Restrictions: For Research Use only

Handling

Preservative: Without preservative

Target Details for Prolactin

Target: Prolactin (PRL)

Alternative Name: Prolactin

Background: Luteinizing hormone (LH) is produced in both men and women from the anterior pituitary gland in response to luteinizing hormone-releasing hormone (LH-RH or Gn-RH), which is released by the hypothalamus. LH, also called interstitial cell-stimulating hormone (ICSH) in men, is a glycoprotein with a molecular weight of approximately 3,. It is composed of two non-covalently associated dissimilar amino acid chains, alpha and beta. The alpha chain is similar to that found in human thyroid-stimulating hormone (TSH), follicle- stimulating hormone (FSH), and human chorionic gonadotropin (HCG). The differences between these hormones lie in the amino acid composition of their beta subunits, which account for their immunological differentiation. The basal secretion of LH in men is episodic and has the primary function of stimulating the interstitial cells (Leydig cells) to produce testosterone. The variation in LH concentrations in women is subject to the complex ovulatory cycle of healthy menstruating women, and depends upon a sequence of hormonal events along the gonado- hypothalamic-pituitary axis. The decrease in progesterone and estradiol levels from the preceding ovulation initiates each menstrual cycle. As a result of the decrease in hormone levels, the hypothalamus increases the secretion of gonadotropin-releasing hormone (GnRH), which in turn stimulates the pituitary to increase FSH production and secretion. The rising FSH levels stimulate several follicles during the follicular phase, one of these will mature to contain the egg. As the follicle develops, estradiol is secreted, slowly at first, but by day 12 or 13 of a normal cycle increasing rapidly. LH is released as a result of this rapid estradiol rise because of direct stimulation of the pituitary and increasing GnRH and FSH levels. These events constitute the pre-ovulatory phase. Ovulation occurs approximately 12 to 18 hours after the LH reaches a maximum, level. After the egg is released, the corpus luteum is formed which secretes progesterone and estrogen, feedback regulators of LH. The luteal phase rapidly follows this ovulatory phase and is characterized by high progesterone levels, a second estradiol increase, and low LH and FSH levels. Low LH and FSH levels are the result of the negative feedback effects of estradiol and progesterone on the hypothalamic-pituitary axis. After conception, the developing embryo produces HCG, which causes the corpus luteum to continue producing progesterone and estradiol. The corpus luteum regresses if pregnancy does not occur, and the corresponding drop in progesterone and estradiol levels results in menstruation. The hypothalamus initiates the menstrual cycle again as a result of these low hormone levels. S7.5(2) LH _x000C_ Patients suffering from hypogonadism show increased concentrations of serum LH. A decrease in steroid hormone production in females may be a result of immature ovaries, primary ovarian failure, polycysticovary disease, or menopause. In these cases, LH secretion is not regulated. A similar loss of regulatory hormones occurs in males when the testes develop abnormally or anorchia exists. High concentrations of LH may also be found in primary testicular failure and Klinefelter syndrome, although LH levels will not necessarily be elevated if the secretion of androgens continues. Increased concentrations of LH are also present during renal failure, cirrhosis, hyperthyroidism, and severe starvation. A lack of secretion by the anterior pituitary may cause lower LH levels. As may be expected, low levels may result in infertility in both males and females. Low levels of LH may also be due to the decreased secretion of GnRH by the hypothalamus, although the same effect may be seen by a failure of the anterior pituitary to respond to GnRH stimulation. Low LH values may therefore indicate some dysfunction of the pituitary or hypothalamus, but the actual source of the problem must be confirmed by other tests. In the differential diagnosis of hypothalamic, pituitary, or gonadal dysfunction, assays of LH concentration are routinely performed in conjunction with FSH assays since their roles are closely interrelated. Furthermore, the hormone levels are used to determine menopause, pinpoint ovulation, and monitor endocrine therapy

Pathways: JAK-STAT Signaling, Peptide Hormone Metabolism, Response to Growth Hormone Stimulus, Protein targeting to Nucleus