anti_mouse LYVE_1

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434.19 €

Known as:: anti_mouse LYVE_1
Catalog number:: 11-034
Product Quantity:: 100 ug
Category:: -
Supplier:: AngioBio
Gene target:: anti_mouse LYVE_1

Related genes to: anti_mouse LYVE_1

Gene:: LYVE1 ^{NIH gene}
Name:: lymphatic vessel endothelial hyaluronan receptor 1
Previous symbol:: XLKD1
Synonyms:: LYVE-1
Chromosome:: 11p15.4
Locus Type:: gene with protein product
Date approved:: 2001-03-21
Date modifiied:: 2015-07-22

Related products to: anti_mouse LYVE_1

Related articles to: anti_mouse LYVE_1

Sliding into Place: The Lymphatic Vessel Endothelial Hyaluronan Receptor LYVE-1 and Its Role as a Mediator of Cell Entry and Trafficking in the Lymphatics.
Hyaluronan (HA) receptors are expressed in a wide variety of different tissues and have long been known to support the critical cellular functions of adhesion and motility, in addition to a range of different physiological and pathological processes, including immunity, inflammation and tumour metastasis. In recent years, LYVE-1, an HA receptor largely but not exclusively restricted to the endothelia of lymphatic capillaries, has been shown to mediate the entry of immune cells through lymphatic endothelial junctions by engaging with their surface HA glycocalyx, itself anchored to the immune cell membrane by the closely related receptor CD44. Although similar to CD44 in primary sequence, LYVE-1 is functionally distinct, with a mutually exclusive pattern of tissue expression and a marked dependence on avidity for engagement with the long chains of HA-achieved primarily through receptor clustering. Here, we review key data that have defined the in vitro and in vivo functions of LYVE-1, including recent high-resolution crystal structures that have revealed its unusual and reversible "sliding" mode of interaction with HA, as distinct from the conventional "sticking" interaction in CD44. Lastly, we consider the emerging functions of LYVE-1 in sites beyond the lymphatics, namely tissue-resident macrophages and the specialised blood vessels of certain organs, and its potential as a therapeutic target. - Source: PubMed
Publication date: 2026/05/26
Jackson David G
The Scaffold Protein Liprin β-1 (PPFIBP1) and the Intermediate Filament Synemin: Potential New Markers of Lymphatic Endothelial Cells.
There are a few molecules that are regularly used as markers for lymphatic endothelial cells (LECs) such as the adhesion molecule CD31/PEACAM1, the transcription factor PROX1, the Vascular Endothelial Growth Factor Receptor-3 (VEGFR3/), the glycoprotein podoplanin, and the hyaluronan receptor LYVE1. However, none of the molecules are exclusively expressed in LECs, and there is molecular and functional heterogeneity of LECs in initial lymphatics, lymphatic collectors and lymph nodes. Therefore, a combination of markers must be applied to identify lymphatics. This is particularly true for the characterization of conditions such as lymphatic malformations or cancers, in which the molecular profile of vessels may be variable or abnormal. Here we present two molecules that can help distinguish between endothelial cells of blood and lymphatic vessels: the scaffold protein liprin β-1 (PPFIBP1) and the intermediate filament synemin. We collected own data on the RNA and protein expression of the two molecules in humans, and studied publicly available databases. PPFIBP1 appears to be a suitable marker of LECs in initial lymphatics, collectors and lymph nodes, while synemin appears to be more restricted to initial lymphatics. We hope this will stimulate monoclonal antibody development and help expand the range of LEC markers in health and disease. - Source: PubMed
Publication date: 2026/06/10
Becker JürgenWilting Jörg
CCN1/Cyr61 associates with β-amyloid levels in human cerebrospinal fluids.
CCN1, also called Cyr61, is a secreted protein involved in diverse biological processes including senescence. While elevated in brains of Alzheimer's disease (AD) models and patients, CCN1/Cyr61 levels in cerebrospinal fluid (CSF) remain unclear. Using a high-sensitive quantification method, we analyzed CSF samples from 79 subjects (age: 77.7 ± 5.4 years [63-94], MMSE: 20.1 ± 5.9 [0-30]) who underwent CSF tap test. CCN1/Cyr61 showed strong associations with Aβ40 (r = 0.67), Aβ42 (r = 0.48), Aβ42/40 ratio (r = -0.53), and phospho-tau levels (r = 0.53) (all; < 0.0001). CCN1/Cyr61 also moderately associated with glial markers, YKL-40, sTREM2, CD163, and a lymphatic endothelial marker, LYVE-1 (r ≈ 0.4). While these cellular markers also associated with Aβ and phospho-tau, effects were much weaker. Collectively, CCN1/Cyr61 is associated with Aβ species and p-tau in CSF. These associations are considerably stronger than those observed with typical glial or other cellular markers, providing a clue to understanding the link between senescence and AD pathology at the levels of fluid biomarkers. - Source: PubMed
Publication date: 2026/06/05
Shinohara MitsuruMomota HiroyukiSaito TsuyoshiTakenobu ChisakoKasuga KensakuGheni GhupurjanKawai KaoriMorishima MahoSaito YukoShindo AkihiroYasuno FumihikoIkeuchi TakeshiFukumori AkioSato Naoyuki
Brain vascular structures contribute to the outflow of lymphatic vessels in the human.
The brain lymphatic system clears metabolic waste from neural tissue, maintains extracellular fluid homeostasis, and supports brain function. Its dysfunction is associated with neurodegenerative disorders and neuroinflammation. Thus, lymphatic efflux is essential for brain physiology. This study evaluated the superficial and deep vascular structures involved in extracranial lymphatic drainage of the human brain. Immunohistochemistry (IHC) and Western blot analyses were used to identify LVs associated with superficial (Trolard and Labbé) and deep (internal cerebral and vein of Galen) cerebral veins and the internal jugular vein (IJV). Furthermore, the anterior (ACA), middle (MCA), internal carotid (ICA), and vertebral (VA) arteries were analyzed for LYVE-1 (a lymphatic endothelial marker) and CD31 (a vascular endothelial marker). Western blotting was used to confirm the IHC findings. The IHC analyses showed LVs in the adventitia of the vessels accompanying the ICA, VA, and IJV. However, no true LVs were observed along the ACA and MCA, nor along the superficial or deep venous structures of the brain, except the IJV. The diameters of LVs ranged from 40.1-3612.7 µm (Mean ± SD: 990.0 ± 1448.6) accompanying the ICA, 11.3-221.4 µm (Mean ± SD: 67.1 ± 72.7 µm) accompanying the VA, and 5.0-264.7 µm (Mean ± SD: 40.4 ± 61.3 µm) accompanying the IJV. Western blotting confirmed the presence of LVs accompanying the ICA, VA, and IJV. Understanding the circulation of the human brain lymphatic system can provide insights into neurological disease and new therapeutic approaches. - Source: PubMed
Publication date: 2026/06/16
Altınöz DamlasuÖzkan MazharMortaş Ferdane NilayPirdal BeyzaAslıyüksek HızırÇakır HalitÇavdar Safiye
Correction: MRC1 and LYVE1 expressing macrophages in vascular beds of GNAQ p.R183Q driven capillary malformations in Sturge Weber syndrome.
- Source: PubMed
Publication date: 2026/06/12
Nasim SanaBichsel ColetteDayneka StephenMannix RobertHolm AnnegretVivero MathewAlexandrescu SandaPinto AnnaGreene Arin KIngber Donald EBischoff Joyce

anti_mouse LYVE_1

Related genes to: anti_mouse LYVE_1

Related products to: anti_mouse LYVE_1

Related articles to: anti_mouse LYVE_1

Sliding into Place: The Lymphatic Vessel Endothelial Hyaluronan Receptor LYVE-1 and Its Role as a Mediator of Cell Entry and Trafficking in the Lymphatics.

The Scaffold Protein Liprin β-1 (PPFIBP1) and the Intermediate Filament Synemin: Potential New Markers of Lymphatic Endothelial Cells.

CCN1/Cyr61 associates with β-amyloid levels in human cerebrospinal fluids.

Brain vascular structures contribute to the outflow of lymphatic vessels in the human.

Correction: MRC1 and LYVE1 expressing macrophages in vascular beds of GNAQ p.R183Q driven capillary malformations in Sturge Weber syndrome.