Phenotypes associated with this allele

• Allele Symbol: Eif2ak3^tm1Drc
• Allele Name: targeted mutation 1, Douglas R Cavener
• Allele ID: MGI:2183829
• Summary: 1 genotype

Jump to	Allelic Composition	Genetic Background	Genotype ID
hm1	Eif2ak3^tm1Drc/Eif2ak3^tm1Drc	involves: 129S6/SvEvTac	MGI:3618624

Genotype
MGI:3618624

hm1

• Allelic Composition: Eif2ak3^tm1Drc/Eif2ak3^tm1Drc
• Genetic Background: involves: 129S6/SvEvTac

• ♀: phenotype observed in females
• ♂: phenotype observed in males
• N: normal phenotype

Acinar cells are lost in both Eif2ak3^tm1Drc/Eif2ak3^tm1Drc and Eif2ak3^tm1.1Drc/Eif2ak3^tm1.1Drc Tg(Ela1-cre)16Eps/0 mice

cellular

abnormal osteoblast physiology ( J:76661 )

• primary cultures of osteoblasts isolated from mutant calvaria exhibit an 8-fold elevation in procollagen levels; this may lead to accumulation of procollagen and distention of ER cisternae

increased osteoblast apoptosis ( J:76661 )

• some mutant osteoblasts exhibit pycnotic nuclei and other signs of apoptosis

mortality/aging

postnatal lethality, incomplete penetrance ( J:76661 )

• at least 23% of homozygotes die within the first 48 hrs

• only 37% of the expected number survive beyond the first few days

prenatal lethality, incomplete penetrance ( J:76661 )

• ~30% to 40% of homozygotes die prenatally

growth/size/body

decreased body size ( J:76661 )

• at P7 and at 4 weeks of age, homozygotes are ~40% to 50% smaller than wild-type mice

postnatal growth retardation ( J:76661 )

• surviving newborns are of normal size but display severe postnatal growth retardation up to 4 weeks of age

homeostasis/metabolism

abnormal insulin secretion ( J:76661 )

• at P17, the total insulin content in pancreatic islets is reduced by 32%; however, beta cell loss is partially compensated for by a >2-fold expression of insulin in the remaining cells

hyperglycemia ( J:76661 )

• homozygotes are euglycemic for the first 3 weeks but rapidly become diabetic, with severe hyperglycemia first noted at ~P22

• at >P22, blood glucose levels often exceed the detection capability of the blood glucose monitor

• onset of diabetes correlates with loss of insulin-producing beta cells in pancreatic islets

decreased circulating insulin level ( J:76661 )

• at P7-P11, prediabetic homozygotes display 70% of wild-type pancreatic insulin but have serum insulin levels indistinguishable from those in wild-type mice

• by 2 months, diabetic homozygotes display 10% of wild-type pancreatic insulin and only 5% of wild-type serum insulin levels

impaired glucose tolerance ( J:76661 )

• diabetic homozygotes are incapable of rapidly clearing blood glucose

increased liver glycogen level ( J:76661 )

• diabetic homozygotes exhibit a 3-fold increase in liver glycogen content relative to non-diabetic wild-type mice

endocrine/exocrine glands

abnormal exocrine pancreas morphology ( J:129974 )

abnormal pancreatic acinar cell morphology ( J:76661 )

• at 3 weeks, many pancreatic acinar cells display a fragmented and distended endoplasmic reticulum that is devoid of protein in the cisternae, with crowding of zymogen granules around the nucleus

• by 4 weeks, the pancreatic acini of some homozygotes succumb to massive apoptosis, appear highly vacuolated, and lack zymogen granules; an increase in periacinar fibroblast-like cells is observed

exocrine pancreatic insufficiency ( J:76661 )

• at P11-P12, prediabetic homozygotes show significantly reduced levels of pancreatic alpha-amylase, lipase, carboxypeptidase A, DNase, and RNase relative to wild-type mice; in contrast, carboxypeptidase B and trypsinogen levels remain unaffected

• at P26-P28, diabetic homozygotes exhibit similarly reduced levels of alpha-amylase, carboxypeptidase A, and lipase

abnormal pancreatic alpha cell morphology ( J:76661 )

• by P14, alpha cells outnumber the beta cells in mutant islets; however, the number of glucagon-secreting alpha cells is rapidly reduced at >4 weeks after birth

absent pancreatic alpha cells ( J:76661 )

• no glucagon-secreting alpha cells are detected at 6 weeks after birth

decreased pancreatic beta cell number ( J:76661 , J:129974 )

• by P14, homozygotes exhibit progressive apoptotic loss of beta cells, with very few insulin-secreting beta cells noted at 4 weeks after birth (J:76661)

absent pancreatic beta cells ( J:76661 )

• no insulin-secreting beta cells are detected at 6 weeks after birth

small pancreatic islets ( J:76661 )

• at >4 weeks after birth, the overall size of the mutant islet is severely reduced

abnormal insulin secretion ( J:76661 )

• at P17, the total insulin content in pancreatic islets is reduced by 32%; however, beta cell loss is partially compensated for by a >2-fold expression of insulin in the remaining cells

digestive/alimentary system

abnormal exocrine pancreas morphology ( J:129974 )

abnormal pancreatic acinar cell morphology ( J:76661 )

• at 3 weeks, many pancreatic acinar cells display a fragmented and distended endoplasmic reticulum that is devoid of protein in the cisternae, with crowding of zymogen granules around the nucleus

• by 4 weeks, the pancreatic acini of some homozygotes succumb to massive apoptosis, appear highly vacuolated, and lack zymogen granules; an increase in periacinar fibroblast-like cells is observed

exocrine pancreatic insufficiency ( J:76661 )

• at P11-P12, prediabetic homozygotes show significantly reduced levels of pancreatic alpha-amylase, lipase, carboxypeptidase A, DNase, and RNase relative to wild-type mice; in contrast, carboxypeptidase B and trypsinogen levels remain unaffected

• at P26-P28, diabetic homozygotes exhibit similarly reduced levels of alpha-amylase, carboxypeptidase A, and lipase

skeleton

abnormal osteoblast physiology ( J:76661 )

• primary cultures of osteoblasts isolated from mutant calvaria exhibit an 8-fold elevation in procollagen levels; this may lead to accumulation of procollagen and distention of ER cisternae

increased osteoblast apoptosis ( J:76661 )

• some mutant osteoblasts exhibit pycnotic nuclei and other signs of apoptosis

abnormal skeleton morphology ( J:76661 )

abnormal axial skeleton morphology ( J:76661 )

• newborn homozygotes exhibit severe dysplasias in the axial skeleton (also observed prenatally, data not shown)

abnormal vertebrae development ( J:76661 )

• homozygotes exhibit asymmetrical formation and compression of the vertebral column

abnormal vertebral body morphology ( J:76661 )

abnormal compact bone morphology ( J:76661 )

• homozygotes exhibit defective compact bone formation in both long bone and flat bone types, with large perforations and discontinuities in long bone collars, parietal bones of the skull, and the body of vertebrae

decreased compact bone thickness ( J:76661 )

• the compact bone of mutant vertebrae is often significantly thinner or even absent in some cases

abnormal osteoblast morphology ( J:76661 )

• many, but not all, mutant osteoblasts display highly distended and fragmented rough endoplasmic reticulum (ER)

• some mutant osteoblasts exhibit pycnotic nuclei and other signs of apoptosis

• unlike the protein-depleted ER cisternae of mutant acinar cells, the fragmented ER cisternae of mutant osteoblasts are rich in protein

osteoporosis ( J:76661 )

decreased bone mineralization ( J:76661 )

• homozygotes display reduced bone mineralization of the entire skeleton in bone tissues derived from both intramembranous and endochondral ossification

behavior/neurological

hunched posture ( J:76661 )

• homozygotes exhibit severe spinal curvature

decreased locomotor activity ( J:76661 )

• homozygotes display reduced locomotor activity

limbs/digits/tail

abnormal hindlimb morphology ( J:76661 )

• homozygotes display splayed hindlimbs

liver/biliary system

increased liver glycogen level ( J:76661 )

• diabetic homozygotes exhibit a 3-fold increase in liver glycogen content relative to non-diabetic wild-type mice

Mouse Models of Human Disease		DO ID	OMIM ID(s)	Ref(s)
Wolcott-Rallison syndrome		DOID:0090060	OMIM:226980	J:76661