Request Demo

Last update 23 Jan 2025

KISS1

Last update 23 Jan 2025

Basic Info

Synonyms

KiSS-1 metastasis suppressor, KISS1, Kisspeptin-1

+ [6]

Introduction

Metastasis suppressor protein in malignant melanomas and in some breast cancers. May regulate events downstream of cell-matrix adhesion, perhaps involving cytoskeletal reorganization. Generates a C-terminally amidated peptide, metastin which functions as the endogenous ligand of the G-protein coupled receptor GPR54. Activation of the receptor inhibits cell proliferation and cell migration, key characteristics of tumor metastasis. Kp-10 is a decapeptide derived from the primary translation product, isolated in conditioned medium of first trimester trophoblast. Kp-10, but not other kisspeptins, increased intracellular Ca(2+) levels in isolated first trimester trophoblasts. Kp-10 is a paracrine/endocrine regulator in fine-tuning trophoblast invasion generated by the trophoblast itself. The receptor is also essential for normal gonadotropin-released hormone physiology and for puberty. The hypothalamic KiSS1/GPR54 system is a pivotal factor in central regulation of the gonadotropic axis at puberty and in adulthood.

Drugs associated with KISS1

Kisspeptin 112-121

Target

KISS1

Mechanism

KISS1 modulators

Active Org.

The Schwartz Center for Compassionate Healthcare

Originator Org.

Mass General Brigham, Inc.

Active Indication

Idiopathic Hypogonadotropic Hypogonadism [+2]

Inactive Indication-

Drug Highest PhasePhase 2

First Approval Ctry. / Loc.-

First Approval Date20 Jan 1800

Clinical Trials associated with KISS1

NCT05971849

/ RecruitingPhase 1IIT

Dampening the Reproductive Axis With Continuous Kisspeptin

The goal of this study is to assess response to kisspeptin as well as the baseline patterns of luteinizing hormone (LH) secretion in individuals with polycystic ovarian syndrome (PCOS).

Start Date06 Oct 2023

Sponsor / Collaborator

The Schwartz Center for Compassionate Healthcare

NCT05896293

/ RecruitingPhase 2IIT

Kisspeptin Administration Subcutaneously to Patients With Reproductive Disorders

The goal of this study is to see whether kisspeptin, a naturally occurring hormone, can stimulate the release of other reproductive hormones in men and women with idiopathic hypogonadotropic hypogonadism (IHH). The investigators are also examining whether kisspeptin can help women release eggs from their ovaries. Kisspeptin will be administered SC for two weeks in a pulsatile fashion. Ultrasound monitoring of ovarian follicular growth (for women) and frequent blood sampling (every 10 minutes for up to 70 minutes) will be performed to assess the physiologic response to kisspeptin over time.
Funding Source: FDA OOPD

Start Date03 Feb 2023

Sponsor / Collaborator

The Schwartz Center for Compassionate Healthcare

NCT05633966

/ RecruitingPhase 1IIT

Kisspeptin Administration Subcutaneously to Patients With Reproductive Disorders

The goal of this study is to see whether kisspeptin, a naturally occurring hormone, can stimulate the release of other reproductive hormones in women with hypothalamic amenorrhea (HA). The investigators are also examining whether kisspeptin can help women release eggs from their ovaries. Kisspeptin will be administered subcutaneously (SC) for two weeks in a pulsatile fashion. Ultrasound monitoring of ovarian follicular growth and frequent blood sampling (every 10 minutes for up to two hours) will be performed to assess the physiologic response to kisspeptin over time.

Start Date16 Dec 2022

Sponsor / Collaborator

The Schwartz Center for Compassionate Healthcare

100 Clinical Results associated with KISS1

100 Translational Medicine associated with KISS1

0 Patents (Medical) associated with KISS1

1,736

Literatures (Medical) associated with KISS1

01 Mar 2025·Metabolism

Hypothalamic SIRT1-mediated regulation of the hormonal trigger of ovulation and its repression in energy deficit

Article

Author: Torres-Granados, Carmen ; Velasco, Inmaculada ; Barroso, Alexia ; Roa, Juan ; Manfredi-Lozano, María ; Ruiz-Pino, Francisco ; Tena-Sempere, Manuel ; Sánchez-Garrido, Miguel A ; Nogueiras, Rubén ; Sanchez-Tapia, María J ; Dieguez, Carlos ; Lomniczi, Alejandro ; Vazquez, María J ; Daza-Dueñas, Silvia

Female reproduction is highly sensitive to body energy stores; persistent energy deficit, as seen in anorexia or strenuous exercise, is known to suppress ovulation via ill-defined mechanisms. We report herein that hypothalamic SIRT1, a key component of the epigenetic machinery that links nutritional status and puberty onset via modulation of Kiss1, plays a critical role in the control of the preovulatory surge of gonadotropins, i.e., the hormonal trigger of ovulation, and its repression by conditions of energy deficit. Kiss1 neurons in the preoptic area, with proven roles in the control of ovulation, express Sirt1 mRNA. Reciprocal changes in hypothalamic SIRT1 content and Kiss1 expression were observed during the pre-ovulatory phase in adult female rats. Central activation of SIRT1 reduced Kiss1 expression in the rostral hypothalamus, and attenuated the preovulatory surge, while blockade of central SIRT1 augmented it. Conditions of energy deficit enhanced hypothalamic SIRT1 activity and caused suppression of the pre-ovulatory surge and ovulation, which could be rescued by central SIRT1 inhibition. In turn, virogenetic induction of SIRT1 in rostral hypothalamic Kiss1 neurons in adult female mice disrupted ovarian cyclicity and suppressed reproductive indices, despite preserved body weight. Our data document the prominent function of hypothalamic SIRT1 as a key modulator of Kiss1 neurons and the hormonal surge driving ovulation in adulthood, with a major role in its inhibition during conditions of energy insufficiency.

01 Jan 2025·Environmental Research

Multigenerational impact of chronic exposure to mercury chloride on maternal care, puberty, fertility, and hypothalamic function in female mice

Article

Author: Malqui, Hafsa ; Chigr, Fatiha ; Essaidi, Oumaima ; Berroug, Laila ; Laaroussi, Meriem ; Anarghou, Hammou ; Boukholda, Khadija ; Fetoui, Hamadi

Chronic exposure to low doses of mercury, one of the ten most dangerous chemicals for public health, has been associated with problems in fertility. Our study aims to investigate the effect of chronic exposure to a low dose of mercury chloride on the reproductive health of female mice and maternal behavior throughout generations using the maternal lineage for the first and second generations, either by direct exposure with F1 and F2 or via the germ cells with F2'. To our knowledge, these modalities have never been addressed before. Among the main outcomes of our research, we provide evidence that mercury exposure induces multigenerational alterations of maternal care and reproduction in female mice, respectively, through alterations of gene expression in the hypothalamus. The decline in maternal care behaviors observed in all exposed groups involved reduced nursing frequency and grooming/licking behaviors. The reproductive phenotype found across generations in our study directly exposed the F1 and F2, or even in the germline-exposed F2', is defined by a delay in the vaginal opening, a delay in the first estrus, altered estrous cyclicity, and a decrease in interest in mating behavior observed in the two-choice preference test. These results were accompanied by a reduction in the mRNA expression of kiss1 and Gnrh1 in the hypothalamus, critical hormones in the HPG axis for initiating ovulation and estrous cycles. Furthermore, the F1, F2, and F2' exposed mice had significantly decreased mRNA expression of Bdnf, which might indicate impaired communication within the neural circuits controlling reproduction. Additionally, increased Tnf-α and Il6 mRNA expression indicates a possible inflammatory response to mercury exposure across generations.

01 Jan 2025·Hormones and Behavior

Kisspeptin participates in the positive reward state induced by paced mating and modulates sexual receptivity and paced mating behavior in female rats

Article

Author: Paredes, R G ; Ponce, E ; Bedos, M ; Corona, R

Kisspeptin (Kp), a potent regulator of the hypothalamic-pituitary-gonad axis, was recently shown to be involved in partner preference and sexual receptivity in females. Interestingly, Kp and its receptor (Kiss1r) are expressed in brain regions involved in the reward and motivation of reinforcing behaviors. Therefore, in the present study, we designed 3 experiments to determine the participation of Kp in female sexual behavior and the positive affective (PA) reward state induced by paced mating (PM). In all experiments, we used sexually naïve ovariectomized Wistar female rats primed with estradiol benzoate (EB, 2.5 μg/rat) 48 h before behavioral tests. In experiment 1 (n = 9), we tested the effect of Kp on PM. We demonstrated that Kp-10 (14 nmol) induced similar levels of receptivity to treatment with EB + progesterone and facilitated PM by reducing the return latency after intromissions. In experiment 2 (n = 8), we evaluated the effect of p234 penetratin, a Kiss1r antagonist, on PM. The administration of p234 in doses of 7.5 nmol and 15 nmol reduced the mean lordosis intensity and increased mount and intromission return latencies. Finally, in Experiment 3, we tested the capacity of Kp to induce a PA state or the antagonist to block the reward state induced by PM. Kp-10 (7 and 14 nmol) induced a clear conditioned place preference. This reward state and that produced by PM were blocked by p234 (15 nmol). Our findings underscore the critical role of Kp in modulating female sexual behavior and the PA state associated with PM, highlighting its potential to enhance sexual motivation.

News (Medical) associated with KISS1

24 Oct 2022

·www.fiercebiotech.com

Sumitomo nets Myovant in $2.9B buyout, adding IVF asset to pipeline

A deal with Myovant will give Sumitomo control of a pipeline prospect, MVT-602. Sumitomo has landed its takeover target. After seeing Myovant turn down its original offer, the Japanese drugmaker has added almost 20% to its price to get the deal done and snag a phase 2 in vitro fertilization asset. Osaka-based Sumitomo became a major shareholder in Myovant in 2019 and, having seen its partner’s share price fall from above $20 to briefly below $10, made a move to buy the remaining 48% of the drug developer earlier this month. Myovant promptly knocked back the $22.75-a-share offer but left the door open to negotiations. Sumitomo returned with an offer of $27 a share and persuaded Myovant to sign. The deal centers on two commercial products, Orgovyx and Myfembree, but will also give Sumitomo control of a pipeline prospect, MVT-602. Takeda tried and failed to develop the oligopeptide kisspeptin-1 receptor agonist as a treatment for low levels of testosterone and other sex hormones. After missing the endpoints in phase 2 trials, Takeda offloaded the rights to the drug candidate as part of the deal with Roivant Sciences that birthed Myovant. While Takeda studied the molecule, then known as TAK-448, in men with sex hormone disorders, the new partners pitched it for use in female infertility at the time of their deal in 2016. Since then, Myovant has published phase 1 and phase 2a data on the candidate, linking it to a surge in luteinizing hormone associated with high and dose-dependent rates of ovulation. The company framed the data as evidence that MVT-602 could become a safe alternative egg-maturation trigger. Yet the progress of, and investment in, MVT-602 has stalled. In its 2021-22 financial year, Myovant racked up $318,000 in R&D costs specific to the candidate, down from $4.9 million in 2018-19. In theory, Sumitomo, a larger company, has the resources to kick-start development, but it made no mention of the molecule in its statement to disclose the Myovant merger.

Acquisition

Analysis

Perform a panoramic analysis of this field.

view full example data

Chat with Hiro

Get started for free today!

Accelerate Strategic R&D decision making with Synapse, PatSnap’s AI-powered Connected Innovation Intelligence Platform Built for Life Sciences Professionals.

Start your data trial now!

Synapse data is also accessible to external entities via APIs or data packages. Empower better decisions with the latest in pharmaceutical intelligence.

Bio

Bio Sequences Search & Analysis

Chemical

Chemical Structures Search & Analysis

KISS1

Basic Info

Related

Analysis