Phenotypes Associated with This Genotype

Genotype
MGI:3603412

• Allelic Composition: Oxt^tm1Wsy/Oxt^tm1Wsy
• Genetic Background: involves: 129S/SvEv * C57BL/6

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

endocrine/exocrine glands

abnormal mammary gland growth during lactation ( J:91657 )

♀ • at parturition, homozygous dams show normal alveolar density and mammary epithelial cell differentiation

♀ • however, shortly after parturition, homozygous dams display partially involuted mammary tissue, despite suckling and the presence of systemic lactogenic hormones

♀ • in addition, homozygous dams fail to exhibit post-partum DNA synthesis and proliferation of alveolar cells

abnormal lactation ( J:36926 , J:91657 )

♀ (J:36926)

♀ (J:91657)

galactostasis ( J:36926 , J:91657 )

♀ • homozygous mice are grossly normal and fertile, carry normal-sized litters and produce milk, but fail to eject milk in response to suckling (J:36926)

♀ • as a result, newborn pups fail to survive for >24 hrs, dying without milk in their stomachs, despite apparently normal suckling (J:36926)

♀ • i.p. injection of oxytocin into homozygous mutant dams restores milk ejection in response to suckling (J:36926)

♀ (J:91657)

renal/urinary system

renal/urinary system phenotype ( J:36926 , J:91657 )

N (J:91657)

♂N • male homozygotes exhibit normal plasma osmolarities and are able to concentrate their urine after 24 hrs of water deprevation (J:36926)

behavior/neurological

abnormal drinking behavior ( J:72051 )

♂ • under baseline conditions, homozygous males show no significant differences in water consumption relative to wild-type mice

♂ • however, mutant males initiate water intake 3 hrs earlier in the light/dark cycle relative to wild-type males

abnormal food preference ( J:72051 )

• under baseline conditions, homozygous males exhibit a 4-6-fold increase in salt licking activity (licks/24 hrs) and salt (2% NaCl) consumption relative to wild-type males

• salt licking activity is prominent during the dark period, as expected

• voluntary consumption of a hypertonic salt solution is not driven by plasma hyperosmolarity, as no changes in ionic concentrations are observed

• despite increased 2% NaCl consumption, homozygotes are able to maintain a balance of intake and excretion

decreased aggression ( J:41146 , J:91657 )

• homozygotes display reduced aggression in agonistic bouts within a neutral arena, with significantly less time spent in aggressive encounters and significantly shorter aggressive attacks (J:41146)

• notably, homozygotes exhibit a greater reduction in agonistic interactions in the neutral arena than in the resident-intruder paradigm (J:41146)

decreased grooming behavior ( J:41146 )

• homozygotes exhibit neither significant differences in exploratory activity in the open field test nor sensorimotor deficits in olfaction, visual acuity, coordination or forearm strength tasks

• however, homozygotes spend significantly less time autogrooming in the open field than wild-type mice

galactostasis ( J:36926 , J:91657 )

♀ • homozygous mice are grossly normal and fertile, carry normal-sized litters and produce milk, but fail to eject milk in response to suckling (J:36926)

♀ • as a result, newborn pups fail to survive for >24 hrs, dying without milk in their stomachs, despite apparently normal suckling (J:36926)

♀ • i.p. injection of oxytocin into homozygous mutant dams restores milk ejection in response to suckling (J:36926)

♀ (J:91657)

abnormal circadian behavior ( J:72051 )

♂ • under baseline conditions, homozygous males display an abnormal circadian rhythm of salt and water intake

cardiovascular system

abnormal cardiovascular system physiology ( J:83910 )

• in response to depressor challenges, homozygotes show a significant reduction in maximal bradycardia and a potentiation of reflex tachycardia, in accordance with an increased sympathetic reserve to the heart

• after beta 1-adrenergic and cholinergic blockade, homozygotes show a normal magnitude of sympathetic and vagal tone to the heart and periphery; however, mutants exhibit an upward shift of sympathetic tone to higher heart rate values resulting in larger responses to cholinergic blockade

hypotension ( J:83910 )

• homozygotes exhibit a mild but consistent hypotension (102 3 vs. 110 3 mmHg), with no significant changes in baseline heart rate relative to wild-type mice

nervous system

abnormal baroreceptor physiology ( J:83910 )

• homozygotes exhibit a >3-fold increase in the gain of reflex as well as a notable decrease in the operating pressure range of baroreceptor reflex function

integument

abnormal mammary gland growth during lactation ( J:91657 )

♀ • at parturition, homozygous dams show normal alveolar density and mammary epithelial cell differentiation

♀ • however, shortly after parturition, homozygous dams display partially involuted mammary tissue, despite suckling and the presence of systemic lactogenic hormones

♀ • in addition, homozygous dams fail to exhibit post-partum DNA synthesis and proliferation of alveolar cells

abnormal lactation ( J:36926 , J:91657 )

♀ (J:36926)

♀ (J:91657)

galactostasis ( J:36926 , J:91657 )

♀ • homozygous mice are grossly normal and fertile, carry normal-sized litters and produce milk, but fail to eject milk in response to suckling (J:36926)

♀ • as a result, newborn pups fail to survive for >24 hrs, dying without milk in their stomachs, despite apparently normal suckling (J:36926)

♀ • i.p. injection of oxytocin into homozygous mutant dams restores milk ejection in response to suckling (J:36926)

♀ (J:91657)