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FLASH GENE

Symbol

CALU

contributors: mct - updated : 04-03-2019

HGNC name	calumenin
HGNC id	1458

FLASH GENE DNA RNA EXPRESSION PROTEIN DISORDER ANIMAL & CELL MODELS

DNA

TYPE	functioning gene
STRUCTURE	34.13 kb     8 Exon(s)

10 Kb 5' upstream gene genomic sequence study

MAPPING

cloned

Y

linked

status

provisional

RNA

TRANSCRIPTS	type	messenger

identification nb exons type bp product Protein kDa AA specific expression Year Pubmed NM_001199671 8 - 6181 NP_001186600 - 323 - 1999 10222138 NM_001199672 8 - 6181 NP_001186601 - 323 - 1999 10222138 NM_001219 7 - 5366 NP_001210 - 315 - 1999 10222138 NM_001199673 6 - 5166 NP_001186602 - 224 - 1999 10222138 NM_001130674 7 - 5366 NP_001124146 - 315 - 1999 10222138 NM_001199674 5 - 4940 - 164 - 1999 10222138 CALU-15 - - - - - shuttles between the nucleus and cytoplasm through interacting with importin alpha, Ran GTPase, and CRM1 2013 24136234 promotes filopodia formation and cell migration in the nucleus, CALU-15 increases the transcription of growth differentiation factor-15 (GDF15) (PMID: 24136234)

EXPRESSION

Type	ubiquitous

expressed in	(based on citations)
organ(s)	System Organ level 1 Organ level 2 Organ level 3 Organ level 4 Level Pubmed Species Stage Rna symbol Cardiovascular heart       highly Homo sapiens Fetal Nervous brain limbic system hippocampus dentate gyrus   Homo sapiens Fetal Skin/Tegument skin       highly Urinary kidney       highly

tissue

System Tissue Tissue level 1 Tissue level 2 Level Pubmed Species Stage Rna symbol Blood / hematopoietic bone marrow     highly Connective bone     highly Muscular striatum skeletal

cells

System Cell Pubmed Species Stage Rna symbol Blood/Hematopoietic platelet Homo sapiens Nervous glia Homo sapiens Fetal Nervous neuron Homo sapiens Fetal

cell lineage

cell lines

fluid/secretion

at STAGE

physiological period

pregnancy

Text

placenta

PROTEIN

PHYSICAL PROPERTIES

STRUCTURE

motifs/domains	six EF-hand domains
	potential N-glycosylation site
	at the C terminus a HDEF sequence, retrieval signal and an ER retention signal

HOMOLOGY

interspecies

homolog to murine Calu

Homologene

FAMILY

CREC family of Ca2+-binding proteins having multiple EF-hands

CATEGORY

chaperone/stress , transport

SUBCELLULAR LOCALIZATION	extracellular
	intracellular
	intracellular,cytoplasm,organelle,membrane
	intracellular,cytoplasm,organelle,endoplasmic reticulum
	intracellular,cytoplasm,organelle,Golgi
text	demonstrated in the ER as well as in the Golgi complex

basic FUNCTION	calumenin CA++ binding proteins in the ER and Golgi apparatus
	involved in such ER functions as protein folding and sorting
	may participate in the immunological defense system and could be involved in the pathological process of amyloidosis that leads to formation of amyloid deposits seen in different types of tissues
	may have an autocrine or a paracrine effect on the cells in its vicinity, and, therefore, may be involved in the pathophysiology of thrombosis or in wound healing (
	influence the synthesis of certain coagulation factors
	may be broadly involved in haemostasis and in the pathophysiology of thrombosis
	potential novel regulator of ATP2A2, and its expressional changes are tightly coupled with Ca(2+)-cycling of cardiomyocytes
	possible important role of CALU in migration and differentiation of neurons, and/or in Ca(2+) signaling between glial cells and neuron
	extracellular calumenin as a suppressor of cell migration and tumor metastasis
	calumenin regulates FBLN1 to have crucial roles in ERK1/2 signaling and cell migration
	OSBPL5 and CALU are related to metastatic potential of lung cancer cells
	is a Ca2+ sensor, which folds into a compact structure, capable of interacting with its molecular partners, when Ca2+ concentration within the ER reaches the millimolar range
	multi-EF-hand-containing Ca2+-binding protein
	is intrinsically unstructured in the Ca2+ free form and responds to Ca2+ with a dramatic gain in structure
	CKAP4 and the ER luminal protein CALU collaboratively maintain ER sheet morphology

CELLULAR PROCESS

PHYSIOLOGICAL PROCESS

PATHWAY

metabolism

signaling

a component

INTERACTION

DNA

RNA

small molecule

protein	interacting with TSP1 (in the presence of Ca(2+) binds to TSP1)
	interacts with RYR2 and ATP2A2, and therefore changes in the expression of calumenin could potentially alter Ca2+ cycling in heart
	CALU binds to and stabilizes FBLN1, leading to inactivation of extracellular signal-regulated kinases 1 and 2 (ERK1/2) signaling
	MMP13 proteolyzes FBLN1 and CALU protects FBLN1 from cleavage by MMP13
	CALU inhibits gamma-carboxylation of MGP preventing BMP2-dependent calcification
	CALU specifically interacts with CKAP4 and antagonizes CKAP4 in terms of both ER sheet distribution and luminal width

cell & other

REGULATION

ASSOCIATED DISORDERS

corresponding disease(s)

Other morbid association(s)

Type Gene Modification Chromosome rearrangement Protein expression Protein Function tumoral     --over   of OSBPL5 and CALU promoted invasiveness of lung cancer cells

Susceptibility

Variant & Polymorphism

Candidate gene
Marker
Therapy target
	System Type Disorder Pubmed respiratory CF (mucoviscidosis)   modulation of CALU expression or activity may be used as a potential therapeutic tool to correct defects in F508del-CFTR

ANIMAL & CELL MODELS