Search Criteria: Research Area is "Diabetes and Obesity Research: Insulin Resistance"

Strains from the Research Colonies of Jackson Laboratory Scientists
New Strains Under Development

JAX^® Mice Strains

Stock Number	Strain Name   Strain Description	Standard Supply
000664	C57BL/6J	Level 1
	C57BL/6 is the most widely used inbred strain. It is commonly used as a general purpose strain and background strain for the generation of congenics carrying both spontaneous and induced mutations. Although this strain is refractory to many tumors, it is a permissive background for maximal expression of most mutations. C57BL/6J mice are used in a wide variety of research areas including cardiovascular biology, developmental biology, diabetes and obesity, genetics, immunology, neurobiology, and sensorineural research. C57BL/6J mice are also commonly used in the production of transgenic mice. Overall, C57BL/6 mice breed well, are long-lived, and have a low susceptibility to tumors. Primitive hematopoietic stem cells from C57BL/6J mice show greatly delayed senescence relative to BALB/c and DBA/2J. This is a dominant trait. Other characteristics include: 1) a high susceptibility to diet-induced obesity, type 2 diabetes, and atherosclerosis; 2) a high incidence of microphthalmia and other a ..... For more information please see the full descriiption on the strain data sheet
002684	B6.129P2-Nos3tm1Unc/J	Level 2
	Mice homozygous for the Nos3tm1Unc targeted mutation are viable and fertile. They have elevated blood pressure that is about 20 mmHg higher than that seen in normal wildtype siblings. They also show a decreased heart rate. Female homozygotes are smaller in body weight than normal wildtype siblings. Hyperglycemic-euglycemic clamp studies demonstrate that homozygotes exhibit insulin resistance at the level of the liver and peripheral tissues.
000632	B6.V-Lepob/J	Level 2
	Mice homozygous for the obese spontaneous mutation, (Lepob; commonly referred to as ob or ob/ob), are first recognizable at about four weeks of age. Homozygous mutant mice gain weight rapidly and may reach three times the normal weight of wild-type controls. In addition to obesity, mutant mice exhibit hyperphagia, a diabetes-like syndrome of hyperglycemia, glucose intolerance, elevated plasma insulin, subfertility, impaired wound healing, and an increase in hormone production from both pituitary and adrenal glands. They are also hypometabolic and hypothermic. The obesity is characterized by an increase in both adipocyte number and size. Although hyperphagia contributes to the obesity, homozygotes gain excess weight and deposit excess fat even when restricted to a diet sufficient for normal weight maintenance in lean mice. Hyperinsulinemia does not develop until after the increase in body weight, and probably results from it. Homozygotes have an ab ..... For more information please see the full descriiption on the strain data sheet
000642	BKS.Cg-m +/+ Leprdb/J	Level 2
	Mice homozygous for the diabetes spontaneous mutation (Leprdb) become identifiably obese around three to four weeks of age. Elevations of plasma insulin begin at 10 to 14 days of age and of blood sugar at four to eight weeks. Homozygous mutant mice are polyphagic, polydipsic, and polyuric. The course of the disease is markedly influenced by genetic background. A number of features are observed on the C57BLKS background, including an uncontrolled rise in blood sugar, severe depletion of the insulin-producing beta-cells of the pancreatic islets, and death by 10 months of age. Exogenous insulin fails to control blood glucose levels and gluconeogenic enzyme activity increases. Peripheral neuropathy and myocardial disease are seen in C57BLKS-Leprdb homozygotes. Wound healing is delayed, and metabolic efficiency is increased. Female homozygotes exhibit decreased uterine and ovarian weights, decreased ovarian hormone production and hypercytolipidemia in fol ..... For more information please see the full descriiption on the strain data sheet
000654	CBA/CaJ	Level 2
	The CBA inbred strain was initially bred for longevity and a low incidence of spontaneous mammary tumors (compared with C3H). Burdette and Strong reported that CBA mice were comparatively susceptible to tumor induction after a single subcutaneous injection of methylcholanthrene. The tumor types identified in this early work in CBA mice included spindle cell sarcoma, rhabdomyosarcoma, and epidermoid carcinoma. Strong and Smith reported finding benign hepatomas in aging CBA mice. Several groups confirmed this finding, and the majority of studies found a higher frequency of spontaneous hepatomas in males than in females. CBA/Ca mice are commonly used for leukemogenesis research because this strain has a low spontaneous incidence of leukemia but has a relatively high inducibility of myeloid leukemia in response to benzene and radiation exposure. Multiple reports using CBA, its F1 hybrids, and other strains, have indicated that deletions in a specific segment of chromosome 2 are linked ..... For more information please see the full descriiption on the strain data sheet
002468	KK.Cg-Ay/J	Level 2
	Ay and other mutations at the a locus conferring a completely yellow coat color are dominant to all a alleles that produce a darker coat. Hair pigment of Ay heterozygotes is yellow, but eyes are black. Heterozygotes usually become obese and infertile within a few months after birth. Increased adipose tissue mass is due to fat cell hypertrophy, and it has been hypothesized that the obesity results from the observed reduction in hypothalamic norepinephrine and dopamine. Heterozygotes are more susceptible to several kinds of tumors than are normal mice, possibly due, at least in part, to a general increase in cell proliferation that also manifests as a slight increase in lean body mass and skeletal length. Further spleen cells from heterozygotes cause a significantly lower graft vs. host reaction. Mice homozygous for the yellow spontaneous mutation (Ay) die before implantation, or shortly thereafter. The time of death and ..... For more information please see the full descriiption on the strain data sheet
000697	B6.Cg-m +/+ Leprdb/J	Level 3
	Mice homozygous for the diabetes spontaneous mutation (Leprdb) become identifiably obese around 3 to 4 weeks of age. Elevations of plasma insulin begin at 10 to 14 days and of blood sugar at 4 to 8 weeks. Affected mice are polyphagic, polydipsic, and polyuric. The course of the disease is markedly influenced by genetic background. On the C57BL/6 background there is compensatory hyperplasia of the islet B-cells, and continued hyperinsulinemia throughout an 18- to 20-month life span. Wound healing is delayed and metabolic efficiency is increased. Although normal in body weight, blood glucose, and plasma insulin, heterozygotes (Leprdb/+) also have increased metabolic efficiency and can survive a prolonged fast longer than controls. Experiments involving destruction of the ventromedial nucleus of the hypothalamus suggest that Leprdb may cause a defect in the hypothalamus. Steroid sulfotransferase enzymes, aberrantly expressed in diabet ..... For more information please see the full descriiption on the strain data sheet
000438	C3.SW-H2b/SnJ	Level 3
	Male mice from the C3.SW-H2b/SnJ congenic strain are predisposed to maturity-onset impairment of glucose tolerance and hyperinsulinemia with some mice exhibiting hyperglycemia. Symptoms occur much later, between 5 and 8 months of age, than most of the single gene obese and diabetic strains. In addition, male mice are susceptible to the diabetogenic effects of multiple low doses of streptozotocin (40 mg/kg BW.day X 5).
002633	B6;129S4-Nos1tm1Plh/J	Level 4
	Mice homozygous for the Nos1tm1Plh targeted mutation are viable and fertile; however, they have enlarged stomachs and reduced stroke size. Hyperglycemic-euglycemic clamp studies demonstrate that homozygotes exhibit insulin resistance at the level of peripheral tissues. Homozygous males are reported to be more aggressive than normal wildtype siblings although this has not been confirmed in The Jackson Laboratory colony. These mice may be useful model for stroke research.
003072	ALS/LtJ	Repository- Live
	ALS/LtJ and ALR/LtJ (Stock No. 003070) inbred strains are of interest to investigators across a wide range of scientific disciplines including type 1 and type 2 diabetes, obesity, metabolism and toxicology research. Treatment of alloxan or streptozotocin causing pancreatic beta cell destruction, leads to severe hyperglycemia and hypoinsulinemia in ALS/LtJ mice. ALR/LtJ mice are resistant to these toxins. By 34 weeks of age, both untreated ALS/Lt and ALR/Lt males fed a 6% fat-containing chow diet attain a mean body weight of around 50 grams. Genome wide scan comparison shows that ALS/LtJ mice are more closely related to NON/ShiLtJ mice (they share the H2nb1 haplotype) than to NOD/ShiLtJ. Like two other ICR-derived inbred strains selected in Japan (NON and NSY), alloxan-untreated ALS/Lt males exhibit impaired glucose tolerance when tested by intraperitoneal administration of glucose. However, unlike NON/ShiLt males ..... For more information please see the full descriiption on the strain data sheet
002986	B6.129S4-Nos1tm1Plh/J	Repository- Live
	Mice homozygous for the Nos1tm1Plh targeted mutation are viable and fertile; however, they have enlarged stomachs and reduced stroke size. Hyperglycemic-euglycemic clamp studies demonstrate that homozygotes exhibit insulin resistance at the level of peripheral tissues. Homozygous males are reported to be more aggressive than normal wildtype siblings although this has not been confirmed in The Jackson Laboratory colony. These mice may be useful model for stroke research.
007682	B6.129X1-Apobtm1.1Zc/J	Repository- Live
	Mice homozygous for this apoB38.9 allele (apoB38.9/38.9) are viable with impaired fertility, bearing a premature stop codon at residue 1767 of the targeted gene. As a result, homozygous plasma shows a truncated apoB38.9 as the sole apoB protein. Plasma from heterozygous (apoB+/38.9) mice have reduced apoB100 and apoB48 compared to wildtype, with apoB38.9 representing 20% of total circulating apoB. This apoB38.9 truncation affects both apoB100 and apoB48 metabolism in mice, and mimics human Familial Hypobetalipoproteinemia (FHBL). Homozygous and, to a lesser extent, heterozygous mice exhibit symptoms of FHBL due to impaired lipoprotein export system/VLDL secretion, including elevated hepatic triglyceride (TG), cholesterol and free fatty acids (FFA), with decreased plasma TG and cholesterol. Because plasma and liver lipid profiles range from mild to severe in populations of heterozygous apoB38.9 mice on a mixed (C57BL/6J;129X1/SvJ) genetic background, apoB+/38 ..... For more information please see the full descriiption on the strain data sheet
000021	B6.Cg-Ay/J	Repository- Live
	Mice homozygous for the yellow spontaneous mutation (Ay) die before implantation or shortly thereafter. The time of death and type of abnormality is, in part, determined by the genetic background on which the mutation is placed. Hair pigment in heterozygous mice is yellow, but eyes are black. Heterozygotes usually become obese and infertile after the first few months. Increased adipose tissue mass is due to fat-cell hypertrophy. It has been hypothesized that the obesity results from the observed reduction in hypothalamic norepinephrine and dopamine levels. Insulin resistance and hyperglycemia follow development of hyperinsulinemia in early adulthood, although the degree is less severe than on the KK/UpJ genetic background (Stock No. 002468). Heterozygotes are also more susceptible to several kinds of tumors than normal mice, and their spleen cells cause a significantly lower graft vs. host reaction. The level of ..... For more information please see the full descriiption on the strain data sheet
006952	B6.Cg-Akt2tm1.1Mbb Ldlrtm1Her/J	Repository- Live
	Independently, homozygous Akt2 mutant mice develop insulin resistance and diabetes, while LDLR homozygotes are predisposed to atherosclerosis. Double mutant mice that are heterozygous for the Akt2 allele and homozygous for the LDLR mutation are viable and fertile. These double mutant mice may be useful in studies of diabetes, metabolism, hyperglycemia, and atherosclerosis.
006966	B6.Cg-Akt2tm1.1Mbb/J	Repository- Live
	Mice homozygous for this Akt2 (thymoma viral proto-oncogene 2) mutant allele are viable and fertile. Homozygotes develop insulin resistance, hyperglycemia, impaired glucose tolerance, abnormal glucose uptake in muscle tissue, increased pancreatic beta-cell mass, and diabetes. In an attempt to offer alleles on well-characterized or multiple genetic backgrounds, alleles are frequently moved to a genetic background different from that on which an allele was first characterized. It should be noted that the phenotype could vary from that originally described. We will modify the strain description if necessary as published results become available.
006906	B6.Cg-Lepob Ldlrtm1Her/J	Repository- Live
	Independently, the C57BL/6-Lepob homozygotes (Stock No. 000632) model the increasingly prevalent metabolic disorder seen in humans (hyperglycemia, hyperinsulinemia, and hyperlipidemia), while LDLR-deficient mice (Stock No. 002207) are predisposed to atherosclerosis. When mutant mice are homozygous for both mutant alleles, they exhibit exacerbated hyperlipidemia and extensive atherosclerotic lesions in the aorta. The mice may be useful in studies of diabetes, metabolism, hyperglycemia, atherosclerosis, and hypercholesterolemia.
003923	B6.HRS(BKS)-Cpefat/J	Repository- Live
	Mice homozygous for the fat spontaneous mutation (Cpefat) on a C57BL/6J genetic background (N10) become noticeably obese by 14-15 weeks of age. There is also some sexual dimorphism; female homozygous mutant mice develop obesity at a later age than males. Cpefat mice actually weigh less than wildtype controls prior to weaning age. Homozygous mutant mice develop a diabetic phenotype characterized by hyperglycemia and insulin resistance. Cpefat mice appear healthier on the C57BL/6J genetic background, avoiding the hereditary hydronephrosis present in C57BLKS/J and a lower incidence of malocclusion.
006258	B6;129S4-Apoa2tm1Bres/J	Repository- Live
	Mice homozygous for this targeted mutation are viable and fertile. Homozygous mice have no detectable transcripts in liver tissues and the high density lipoprotein (HDL) particle size is reduced. Homozygotes have decreased plasma levels of HDL cholesterol and free fatty acids in both fed and fasted states. In addition, the plasma concentration of fasting glucose and insulin is decreased. These mice may be useful in studies of lipid metabolism, atherosclerosis, heart disease, insulin resistance and diabetes.
006404	B6;129S4-Apoa4tm1Bres/J	Repository- Live
	Mice homozygous for this targeted mutation are viable and fertile with no protein detectable in plasma, liver, or intestinal tissues. Homozygotes have decreased plasma levels of cholesterol, free fatty acids, and high density (HDL) and very low density lipoprotein (VLDL). These mice may be useful in studies of lipid metabolism, atherosclerosis, heart disease, appetite regulation, intestinal lipid absorption, or inflammatory bowel disease.
005939	B6;129S6-Insig1tm1Mbjg Insig2tm1Mbjg/J	Repository- Live
	Mice homozygous for both targeted mutations are viable, fertile, normal in size and do not display any gross physical or behavioral abnormalities. This double mutant has normal expression of Insig1 and no Insig2 gene expression or protein in liver. As the Insig1 mutant locus contains a loxP, frt-flanked exon 1, Cre-mediated deletion of exon 1 (encoding amino acids 1-113) terminates gene function. Double homozygous mutant mice die in utero some time after embryonic day 18.5. These mice may be useful in studies of cholesterol synthesis and feedback suppression, sterol regulatory element-binding protein (SREBP) processing pathways, liver metabolism and storage functions, and may have use in insulin-related topics such as diabetes and endocrine/exocrine function.
004824	BTBR.V(B6)-Lepob/WiscJ	Repository- Live
	Mice homozygous for the obese spontaneous mutation, (Lepob commonly referred to as ob or ob/ob) exhibit obesity hyperphagia, a diabetes-like syndrome of hyperglycemia, glucose intolerance, elevated plasma insulin, subfertility, impaired wound healing, and an increase in hormone production from both pituitary and adrenal glands. They are also hypometabolic and hypothermic. The obesity is characterized by an increase in both number and size of adipocytes. Although hyperphagia contributes to the obesity, homozygotes gain excess weight and deposit excess fat even when restricted to a diet sufficient for normal weight maintenance in lean mice. Hyperinsulinemia does not develop until after the increase body weight and is probably the result of it. Homozygotes do have an abnormally low threshold for stimulation of pancreatic islet insulin secretion even in very young preobese animals. As is the case with mice carrying the diabetes mutation (Leprdb ..... For more information please see the full descriiption on the strain data sheet
006781	C57BL/6-Tg(Ckm-DGAT2)10Far/J	Repository- Live
	Mice hemizygous for this MCK-DGAT2 transgene are viable and fertile. Under direction of the mouse muscle creatine kinase (MCK) promoter, these mice overexpress human acyl CoA:diacylglycerol acyltransferase 2 (DGAT2) in striated skeletal muscles, specifically glycolytic (rather than oxidative) muscle. DGAT2 overexpression leads to increased lipid deposition (triacylglycerol, ceramide, and fatty acyl CoA) in glycolytic muscle. This lipid accumulation leads to impaired insulin signaling (insulin resistance), glucose uptake, and glucose tolerance in this tissue, as well as whole-body glucose intolerance. These MCK-DGAT2 transgenic mice may be useful in studying lipid accumulation in skeletal muscle, insulin and glucose metabolism, obesity, and type 2 diabetes. Of note, these mice may also be useful in conjunction with Liv-DGAT2-low transgenic mice (Stock No. 007744) which exhibit DGAT2 overexpression directed to hepatic tissue.
007683	CByJ.129X1(Cg)-Apobtm1.1Zc/J	Repository- Live
	Mice homozygous for this apoB38.9 allele (apoB38.9/38.9) are viable with impaired fertility, bearing a premature stop codon at residue 1767 of the targeted gene. As a result, homozygous plasma shows a truncated apoB38.9 as the sole apoB protein. Plasma from heterozygous (apoB+/38.9) mice have reduced apoB100 and apoB48 compared to wild-type, with apoB38.9 representing 20% of total circulating apoB. This apoB38.9 truncation affects both apoB100 and apoB48 metabolism in mice, and mimics human Familial Hypobetalipoproteinemia (FHBL). Homozygous and, to a lesser extent, heterozygous mice exhibit symptoms of FHBL due to impaired lipoprotein export system/VLDL secretion, including elevated hepatic triglyceride (TG), cholesterol and free fatty acids (FFA), with decreased plasma TG and cholesterol. These BALB/cByJ-apoB38.9 mice are also heterozygous for the BALB/cByJ-derived SCAD deletion (Acadsdel-J). While BALB/cByJ inbred mice have elevated liver TG f ..... For more information please see the full descriiption on the strain data sheet
006654	FVB.BKS(D)-Leprdb/ChuaJ	Repository- Live
	The phenotype of this congenic "FVB-db" strain varies from that previously published on other genetic backgrounds. Specifically, obese FVB-db mice show long-term hyperglycemia that is primarily due to severe insulin resistance. The hyperglycemia in the fed state persists despite escalating insulin secretion and a massive increase in pancreatic beta-cell mass. Obese FVB-db mice show evidence of mesangial matrix expansion, a hallmark of diabetic nephropathy. Whereas the original C57BLKS/J-db mice are hyperglycemic due to the development of hypoinsulinemia and loss of beta-cell mass, the hyperglycemia of FVB-db appears to be due to severe insulin resistance with continual increases in insulin secretory capacity from beta-cell mass expansion. As the phenotype varies by genetic background, these mutant mice, along with db mutants on other genetic backgrounds (see Stock No. 000642, For more information please see the full descriiption on the strain data sheet
008232	FVB/N-Tg(Ins2-IAPP)RHFSoel/J	Repository- Live
	Mice homozygous for the RIPHAT transgene are viable and fertile, with expression of human islet amyloid polypeptide (h-IAPP) under the regulatory control of the rat insulin II promoter. While h-IAPP RNA from the transgene is observed in pancreas, kidney, and stomach, h-IAPP protein is reported only in pancreas tissues. Hemizygous mice show no symptoms of spontaneous disease. Homozygous males spontaneously develop diabetes mellitus due to beta-cell death, associated with impaired insulin secretion (hypoinsulinemia), hyperglycemia, and abnormal intracellular aggregates of h-IAPP (the donating investigator reports that extracellular aggregates are not found on this strain background). Homozygous male onset is between 4-8 weeks of age with death around 16 weeks of age. Homozygous females exhibit a less severe phenotype. These RIPHAT transgenic mice may be useful in studying the beta-cell destruction and islet amyloid deposition associated with non-insulin-dependent diabetes mellitus (NIDDM ..... For more information please see the full descriiption on the strain data sheet
002106	KK/HlJ	Repository- Live
	KK/HlJ male mice exhibit diabetic symptoms that includes hyperglycemia, hyperinsulinemia, and insulin resistance. This strains serves as a model of noninsulin dependent diabetes mellitus, type 2.
007679	SWR.129X1(B6)-Apobtm1.1Zc/J	Repository- Live
	Mice homozygous for this apoB38.9 allele (apoB38.9/38.9) are viable with impaired fertility, bearing a premature stop codon at residue 1767 of the targeted gene. As a result, homozygous plasma shows a truncated apoB38.9 as the sole apoB protein. Plasma from heterozygous (apoB+/38.9) mice have reduced apoB100 and apoB48 compared to wildtype, with apoB38.9 representing 20% of total circulating apoB. This apoB38.9 truncation affects both apoB100 and apoB48 metabolism in mice, and mimics human Familial Hypobetalipoproteinemia (FHBL). Homozygous and, to a lesser extent, heterozygous mice exhibit symptoms of FHBL due to impaired lipoprotein export system/VLDL secretion, including elevated hepatic triglyceride (TG), cholesterol and free fatty acids (FFA), with decreased plasma TG and cholesterol. Because plasma and liver lipid profiles range from mild to severe in populations of heterozygous apoB38.9 mice on a mixed (C57BL/6J;129X1/SvJ) genetic background, apoB+/38. ..... For more information please see the full descriiption on the strain data sheet
000709	129P3/J-Leprdb-3J/J	Repository-Cryopreserved
	Mice homozygous for the diabetes 3J spontaneous mutation (Leprdb-3J) become identifiably obese around 3 to 4 weeks of age. Elevations of plasma insulin begin at 10 to 14 days and of blood sugar at 4 to 8 weeks. Homozygous mutant mice are polyphagic, polydipsic, and polyuric. The course of the disease is markedly influenced by genetic background. Homozygous mutant mice on the 129P3/J background exhibit severe obesity but the diabetes phenotype is much reduced.
002048	B6 x C57BLKS-m Leprdb Myo15sh2-J/J	Repository-Cryopreserved
	Mice homozygous for the shaker 2 Jackson spontaneous mutation (Myo15sh2-J) are viable and fertile, showing only a slight reduction in both compared to wildtype mice. The shaker 2 Jackson remutation is not visibly different from the original shaker 2 (Myo15sh2, Stock No. 000109). Homozygous mutant mice of both alleles display a phenotype very similar to the behavior and pathology to shaker-1 (Myo7ash1) with the exception that the abnormalities are observed a little earlier in shaker 2 mice. This strain is also carrying the misty (m) and diabetes (Leprdb) spontaneous mutations.
002939	B6.129S4-Insrtm1Dac/J	Repository-Cryopreserved
	Mice homozygous for the Insrtm1Dac targeted mutation die 48-72 hours after birth due to diabetic keto-acidosis which causes weight loss by dehydration and protein wasting. There are no apparent gross anatomical or morphological changes. Embryonic growth is unaffected. Heterozygotes exhibit a form of mild insulin resistance.
005934	B6.129S4-Ucp2tm1Lowl/J	Repository-Cryopreserved
	Homozygous mice are viable and fertile and do not express full length mRNA in heart, kidney, spleen, white adipose tissue, and pancreatic islets. In splenic mitochondria, endogenous protein was undetectable. When grown under high glucose conditions, cultured pancreatic islet cells from homozygous mice have increased insulin secretion and ATP levels compared to wildtype. Homozygous mice have 18% lower blood glucose levels. Whether fasting or fed, homozygotes have approximately 3-fold greater serum insulin due to increased insulin secretion. Similarly, glucose-stimulated insulin secretion is significantly increased. High fat diet-fed mice or palmitate-treated islets maintain pancreatic glucose responsiveness in vivo and in vitro compared to wildtype. Mitochondria isolated from the dopaminergic mesencephalic nigral cells of homozygous mice have increased reactive oxygen species but lesser mitochondria number and increased sensitivity to MPTP, mimicking Parkinson’s dise ..... For more information please see the full descriiption on the strain data sheet
000699	B6.Cg-m Leprdb/+ +/J	Repository-Cryopreserved
	Mice homozygous for the diabetes spontaneous mutation (Leprdb) become identifiably obese around 3 to 4 weeks of age. Elevations of plasma insulin begin at 10 to 14 days and of blood sugar at 4 to 8 weeks. Affected mice are polyphagic, polydipsic, and polyuric. The course of the disease is markedly influenced by genetic background. On the C57BL/6 background there is compensatory hyperplasia of the islet B-cells, and continued hyperinsulinemia throughout an 18- to 20-month life span. Wound healing is delayed, and metabolic efficiency is increased. Although normal in body weight, blood glucose, and plasma insulin, heterozygotes (Leprdb/+) also have increased metabolic efficiency, and can survive a prolonged fast longer than controls. Experiments involving destruction of the ventromedial nucleus of the hypothalamus suggest that Leprdb may cause a defect in the hypothalamus. Steroid sulfotransferase enzymes, aberrantly expressed in diabe ..... For more information please see the full descriiption on the strain data sheet
002426	B6;129S4-Insrtm1Dac/J	Repository-Cryopreserved
	Mice homozygous for the Insrtm1Dac targeted mutation die 48-72 hours after birth due to diabetic keto-acidosis which causes weight loss by dehydration and protein wasting. There are no apparent gross anatomical or morphological changes. Embryonic growth is unaffected. Heterozygotes exhibit a form of mild insulin resistance.
003393	B6;SJL-Tg(aP2-SREBF1c)9884Reh/J	Repository-Cryopreserved
	This transgenic mouse strain overexpresses human nuclear sterol regulatory element binding protein-1c in adipose tissue under the control of the adipocyte-specific aP2 promoter. The phenotype of transgenic mice resembles congenital generalized lipodystrophy (CGL), a rare autosomal recessive disorder in humans. CGL is characterized by an insufficiency of adipose tissue which is evident at birth and is accompanied by a severe insulin resistance leading to symptoms of type II diabetes mellitis, (hyperinsulinemia and hyperglycemia), and an enlarged fatty liver. Transgenic mice exhibit these symptoms showing defects in differentiation of white fat accompanied by an hypertrophy of brown fat that resembles immature white fat.
000700	BKS.Cg-m Leprdb/+ +/J	Repository-Cryopreserved
	Mice homozygous for the diabetes spontaneous mutation (Leprdb) become identifiably obese around 3 to 4 weeks of age. Elevations of plasma insulin begin at 10 to 14 days and of blood sugar at 4 to 8 weeks. Homozygous mutant mice are polyphagic, polydipsic, and polyuric. The course of the disease is markedly influenced by genetic background. A number of features are observed on the C57BLKS background, including an uncontrolled rise in blood sugar, severe depletion of the insulin-producing beta-cells of the pancreatic islets, and death by 10 months of age. Exogenous insulin fails to control blood glucose levels and gluconeogenic enzyme activity increases. Peripheral neuropathy and myocardial disease are seen in C57BLKS Leprdb homozygotes. Wound healing is delayed and metabolic efficiency is increased. Although normal in body weight, blood glucose, and plasma insulin, heterozygotes (Leprdb/+) also have increased metabolic efficiency and ..... For more information please see the full descriiption on the strain data sheet
001192	BKS.Cg-meaJ Leprdb +/+ + m/J	Repository-Cryopreserved
	Mice homozygous for the meander tail-J spontaneous mutation (meaJ) have variably shortened and kinked tails. At about 2 weeks an unsteadiness of gait, often amounting to a tremor, appears. Homozygous mutant mice are smaller and less vigorous than wiltype controls but are fertile. The anterior lobe of the cerebellum is disorganized. Purkinje cells are scattered, some cellular layers never form, and Bergmann glial processes are absent. The cytoarchitecture of the posterior lobe is normal, and the transition from normal to disorganized areas is sharply demarcated. This mutation occurred in the BKS.Cg-Leprdb +/+ m strain so it is also segregating for the diabetes (Leprdb) and misty (m) mutations. See strain description for BKS.Cg-Leprdb +/+ m (Stock No. 000642) for more information.
000696	BKS.V-Lepob/J	Repository-Cryopreserved
	Mice homozygous for the obese spontaneous mutation (Lepob, commonly referred to as ob or ob/ob) are first recognizable at about 4 weeks old. Homozygous mutant mice increase in weight rapidly and may reach three times the normal weight of wildtype controls. In addition to obesity, mutant mice exhibit hyperphagia; a diabetes-like syndrome of hyperglycemia, glucose intolerance, and elevated plasma insulin; subfertility; and increased hormone production from both pituitary and adrenal. They are also hypometabolic and hypothermic. The obesity is characterized by both an increased number and size of adipocytes. Although hyperphagia contributes to the obesity, homozygotes gain excess weight and deposit excess fat even when restricted to a diet sufficient for normal weight maintenance in lean mice. Hyperinsulinemia does not develop until after the increase body weight and is probably the result of it. Homozygotes do have an abnormally low threshold for stimulati ..... For more information please see the full descriiption on the strain data sheet
002391	BKSChpLt.HRS-Cpefat/J	Repository-Cryopreserved
	Mice homozygous for the fat spontaneous mutation (Cpefat) on a C57BLKS/J genetic background (N10) have a diabetes phenotype that is primarily restricted to males and is more severe than what is seen on the original HRS/J or C57BLKS/J (N5) genetic backgrounds. At weaning both males and female homozygous mutant mice were significantly lighter than wildtype or heterozygous littermates. Obesity develops between 6 and 8 weeks of age and mutant mice can be distinguished from wildtype littermates between 8 and 12 weeks of age. By 18 weeks fat mutant mice will reach 45-55 g and may reach 60-70 g by 6 months of age. Thus, the obesity is thus slower to develop than in the obese (Lepob) and diabetes (Leprdb) mutant mice. The excess adiposity is distributed throughout the body's fat stores, in contrast to the largely axial and inguinal fat deposition of the obese and diabetes mutant mice. Hyperinsulinemia is severe by 4 weeks of age and contin ..... For more information please see the full descriiption on the strain data sheet
003401	C3H/HeJ-Lpin1fld-2J/J	Repository-Cryopreserved
	Homozygous fatty liver dystrophy (fld) mice have an enlarged, fatty liver and hypertriglyceridemia which resolve to normal during the weaning transition. However, decreased overall size, decreased lipid in the fat pads, and a peripheral neuropathy persist throughout the lifespan. This peripheral neuropathy manifests as a tremor and an unsteady gait shortly after 10 days of age and worsens with age. The fld neuropathy is specific to the peripheral nervous system. Electron microscopy of sciatic nerves revealed thin, poorly compacted myelin sheaths, hypertrophic Schwann cells, myelin debris, degenerating axons, bands of Bugner, and regenerative clusters, but no evidence of inflammation (Langner et al, 1991). Western blot analysis of sciatic nerve from two-to-three month old fld/fld mice showed a 7-13-fold reduction in myelin P0, a vast increase in apoE, an increase in GAP-43, and no detectable myelin P2. It was also noted that a ..... For more information please see the full descriiption on the strain data sheet
002244	C57BL/6J-Tg(Apoa2)1Lus/J	Repository-Cryopreserved
	This strain carryies the mouse apolipoprotein A-II transgene. Fasting plasma APOA2 concentrations in transgenic mice are on average about 3-fold higher than normal wildtype siblings with males showing a 1.5-fold higher level than females. ApoA-I concentraions are normal. These mice show a 3-fold increase in plasma triglyceride levels, as well as a predisposition to atherosclerotic fatty streak lesions even on a low fat diet.
000707	CBA.Cg-m Leprdb/+ +/J	Repository-Cryopreserved
	Leprdb/Leprdb mice on the CBA strain background are characterized by exocrine pancreatic necrosis and kidney lesions in aging mice. In contrast to the obesity observed in other strain backgrounds, five month old homozygous males exhibit weight loss in comparison to controls. Homozygous males develop severe hyperglycemia exhibiting blood sugar levels of +/-475 mg/dl by three months of age and increasing to +/- 517 mg/dl by five months. Five month old homozygous males do not exhibit hyperinsulinemia, however homozygous females reach levels of +/-540 uU/ml. Homozygous males do not survive beyond six months. (Leiter EH, et al, 1981) Because of the sterility of Leprdb homozygotes, misty has been incorporated into stocks for maintenance of the diabetes mutation. The repulsion double heterozygote (Leprdb +/+ m) facilitates identification of heterozygotes for breeding, while the coupling double heterozygote, ..... For more information please see the full descriiption on the strain data sheet
002384	FVB/N-Tg(UcpDta)1Kz/J	Repository-Cryopreserved
	Transgenic mice fed a "Western diet" developed marked obesity, insulin resistance, hyperglycemia, and hyperlipidemia. Mice hemizygous for the TgN(UcpDta)1Kz transgene develop early obesity in the absence of hyperphagia indicating an increased metabolic efficiency. Hyperphagia does follow and is present in mice over 7 weeks of age.

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Strains from the Research Colonies of Jackson Laboratory Scientists

IMPORTANT NOTE: Price information is on the strain data sheet which can be viewed by clicking on the strain name.

Stock Number	Strain Name   Strain Description	Standard Supply
003774	CAST.HRS(BKS)-Cpefat/Jng	Research Strain
	Homozygous Cpefat/Cpefat on this background often die in utero or do not live more than a few weeks.

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New Strains Under Development

(See informational text following listing of strains)

How to Register Interest
Please indicate your interest in purchasing any of the strains listed below when they become available for distribution by checking the box next to the strain(s) of interest and then selecting the "Continue" button which leads to an Interest Form.

View a Data sheet for New Strains Under Development
Select the strain name to link to the strain data sheet.

	Stock Number	Strain Name   Strain Description	Standard Supply
	002105	NZO/HlLtJ	On Hold
	NZO mice of both sexes exhibit high birth weights and are significantly heavier at weaning age, Severe obesity (including both visceral and subcuatneous fat depots) develops even when mice are maintained on a standard diet containing 4.5% fat. Both males and females of the NZO/Hl substrain exhibit impaired glucose tolerance (IGT), but subsequent type 2 maturity onset (NIDDM) diabetes development is limited to males, with a phenotype penetrance of 50% or less. NZO/Hl mice also show anti-insulin receptor antibodies, a defect in leptin transport, and hypertension. The genetic lesion appears to be within the islets of Langerhans as transfer of pancreatic islets from normal mice returns body weights and blood glucose levels to within normal range. Ovarian granulosa cell tumors, lymphomas, duodenal, and lung tumors have also been noted to occur in NZO mice at an elevated frequency. F1 hybrids of NON/ShiLt and NZO/Hl provide a new model of obesity-induced diabetes. Male (NON/ShiLt x NZO/Hl)F1 ..... For more information please see the full description on the strain data sheet
	008195	B6.129-Adipoqtm1Chan/J	Under Development for Production
	Homozygous mice are viable and fertile, with absence of targeted allele expression confirmed in adipose tissue (mRNA) and plasma (adiponectin protein). While homozygous mice have normal glucose tolerance and insulin resistance, beta-oxidation activity is significantly increased in muscle and liver. Homozygotes also have endothelial dysfunction (increased leukocyte rolling and leukocyte adhesion), are protected from DSS-induced colitis, and are more susceptible to myocardial ischemia/reperfusion. When fed a high fat diet, obese homozygotes are significantly heavier with increased insulin levels and altered insulin resistance. These adiponectin-deficient (Adipoq-/- or Adipo-/-) mice may be useful in studying obesity, diabetes, insulin resistance, metabolism, inflammation, leukocyte-endothelium interactions, and colitis.
	007073	CByJ.129P2(B6)-Nos3tm1Unc/J	Under Development for Production
	Mice homozygous for the Nos3tm1Unc targeted mutation are viable and fertile. They have elevated blood pressure that is about 20 mmHg higher than that seen in normal wildtype siblings. They also show a decreased heart rate. Female homozygotes are smaller in body weight than normal wildtype siblings. Hyperglycemic-euglycemic clamp studies demonstrate that homozygotes exhibit insulin resistance at the level of the liver and peripheral tissues. This mutant mouse strain may be useful in studies of wound healing, hypertension and other cardiovascular defects, insulin resistance, hyperlipidemia and lung development. In an attempt to offer alleles on well-characterized or multiple genetic backgrounds, alleles are frequently moved to a genetic background different from that on which an allele was first characterized. This is the case for the strain above. It should be noted that the phenotype could vary from that originally described. We will modify the strain de ..... For more information please see the full description on the strain data sheet

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New Strains Under Development

• Receive periodic updates on the status of the colony UNDER DEVELOPMENT
• Obtain advance notification of strain availability and opportunity to order prior to the strain being published as available
• Provide input affecting speed and quantity of availability

The Jackson Laboratory serves as a worldwide distributor and national repository for common and rare strains of inbred mice and mice carrying spontaneous mutations or induced mutations (i.e., transgenic, targeted/"knockout", or chemically induced mutations). At any one time, we have over 100 strains at various stages of development and colony expansion. Strains "Under Development" fall into two categories depending on the anticipated demand from the scientific community.

1. Strains that will be made available from a live distribution colony at The Jackson Laboratory.
   These strains are designated as: "Under Development for Distribution Colony"
2. Strains that will be made available through the Cryopreservation Repository.
   These strains are designated as: "Under Development for Cryopreservation Repository"

It is VERY IMPORTANT that you register interest in strains Under Development. The anticipated demand for a strain enables us to determine effectively the distribution plan for each strain Under Development. Registering interest also provides benefits to you (including advance notification of pending availability). Whether a strain is made available from a live colony OR from our cryopreservation repository, you may want to consider the option of Dedicated Supply. To learn more about Dedicated Supply, go to Services.

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Send questions to our Technical Support team using the Express Technical Support Form.
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