耐力训练对ApoE-/-致AS小鼠IL-18和IL-10表达的影响

目的：深入观察耐力训练对载脂蛋白E基因敲除（ApoE^-/-）致动脉粥样硬化（AS）小鼠白介素18（IL-18）和白介素10（IL-10）的影响,探讨运动防治AS的可能机制。方法：选取8周龄雄性ApoE^-/-小鼠20只：随机分为2组（n=10）：AS模型组（AC组）和运动干预组（AE组）,AE组进行跑台耐力训练;选取8周龄C57BL/6J雄性小鼠10只作为正常对照组（CC组）。实验持续12周,取主动脉制作冰冻切片,分别用于观察主动脉AS斑块和病理变化以及主动脉IL-18、IL-10蛋白表达;采用ELISA法检测血清IL-18、IL-10水平。结果：①12周高脂膳食致ApoE^-/-小鼠发生典型的AS病变,耐力训练使AS斑块面积显著减少（P<0.01）,病变程度显著减轻。②与CC组比较,AC组、AE组小鼠血清IL-18和IL-10水平均显著升高（P<0.01）,且AC组IL-18/IL-10比值显著升高（P<0.01）。AE组血清IL-18水平及IL-18/IL-10比值均显著低于AC组（P<0.01）。③与CC组比较,AC组、AE组小鼠主动脉IL-10和IL-18蛋白表达均显著升高（P<0.01）,AE组IL-10表达显著高于AC组（P<0.05）,IL-18表达显著低于AC组（P<0.05）。结论：耐力训练通过降低血液和主动脉IL-18及提高IL-10水平,增强了主动脉血管抗炎能力,从而发挥抗AS的作用。     

高脂饮食对小鼠附睾内质网应激的影响及褪黑素的干预作用

目的探讨内质网应激在高脂饮食引起的ApoE基因敲除小鼠附睾损伤中的作用及褪黑素（MT）的干预机制。方法将12只ApoE基因敲除的C57BL／6J雄性小鼠随机分为高脂饮食组及MT处理组。高脂饮食组为ApoE基因敲除小鼠,给予高脂饮食;MT处理组给予高脂饲养外,并MT灌胃。以6只野生型C57BL／6J雄性小鼠作为对照组,给予普通饮食。饲养12w后,取附睾组织制片,HE染色观察附睾的病理学形态,免疫组化检测GRP78和CHOP的表达。结果HE染色显示,高脂饮食组小鼠,附睾上皮细胞形态结构不清,细胞萎缩。对照组和褪黑素处理组小鼠附睾上皮细胞形态结构完整,细胞排列整齐。免疫组化显示高脂饮食组小鼠附睾中GRP78、CHOP表达增强（P〈0．01）。MT处理组和高脂饮食组相比,附睾中GRP78、CHOP表达下调（P〈0．01）。结论内质网应激参与高脂饮食导致的附睾损伤;MT可能通过抑制附睾内质网应激,减轻高脂饮食对小鼠附睾的损伤。     

耐力运动对高脂血症小鼠主动脉一氧化氮合酶活性的影响

目的：观察耐力性运动对高脂血症小鼠主动脉一氧化氮合酶（NOS）活性的影响。方法：分别测定正常饮食对照组、正常饮食结合运动组、高脂饮食组、高脂饮食结合运动组小鼠血脂水平及其主动脉固有型NOS（cNOS）和诱导型NOS（iNOS）的活性．结果：高脂饮食降低主动脉cNOS活性,耐力运动可使上述变化逆转;高脂饮食增强主动脉iNOS活性,耐力运动可使iNOS活性略有降低,但无显著性差异。结论：耐力运动可在一定程度上逆转高脂血症引起的cNOS活性降低,这可能属独立于血脂调节作用以外的其它抗动脉硬化机制。     

有氧运动对小鼠高脂血症及脂蛋白代谢的影响

本研究以高胆固醇饮食小鼠为实验对象,观察有氧运动对脂质水平异常的动物个体血脂及脂蛋白代谢的影响。结果显示,经１１周有氧耐力训练后,高脂膳食＋运动组小鼠血浆ＴＧ、ＴＣ及ＬＤＬ－Ｃ水平均显著低于高脂膳食组（Ｐ＜０．０５）,而ＨＤＬ－Ｃ／ＴＣ和ＨＤＬ－Ｃ／ＬＤＬ－Ｃ比值均显著高于高脂膳食组（Ｐ＜０．０５）。表明长期有氧耐力训练能显著改善高胆固醇饮食小鼠血脂及脂蛋白代谢状况。     

CXCL8对小鼠动脉粥样硬化发生发展的影响及其分子机制研究

目的:探讨趋化因子8(CXCL8)对小鼠动脉粥样硬化(AS)发生发展的影响及其可能机制。方法:40只雄性Apo E-/-小鼠随机分为AS组和CXCL8抑制剂(G31P)组,每组各20只,另选取20只雄性C57BL/6J小鼠作为对照组。AS组小鼠予高脂饲料喂养12周,G31P组小鼠予高脂饲料喂养12周的同时皮下注射G31P(注射剂量为500μg/kg),对照组的小鼠予普通饲料喂养12周。ELISA法检测小鼠血清中的甘油三脂(TG)、低密度脂蛋胆固醇(LDL-C)、高密度脂蛋白胆固醇(HDL-C)、总胆固醇(TC)水平,实时聚合酶链反应(RT-PCR)法检测小鼠主动脉组织中CXCL8及基质金属蛋白酶9(MMP9)mRNA的表达量,Western-blot法检测主动脉CXCL8及MMP9蛋白表达量。结果:高脂饮食喂养12周后,AS组小鼠血清中的TG、LDL-C、TC水平均高于G31P组,而HDL-C水平明显低于G31P组(P0.05);G31P组小鼠血清中的TG、LDL-C、TC水平均高于对照组,HDL-C水平低于对照组(P0.05)。AS组小鼠主动脉组织中的CXCL8、MMP9的m RNA表达量及蛋白表达量高于G31P组(P0.05),G31P组小鼠主动脉组织中的的CXCL8、MMP9的m RNA表达量及蛋白表达量高于对照组(P0.05)。结论:CXCL8在AS小鼠主动脉组织中呈高表达,CXCL8可能通过影响MMP9的表达在一定程度上参与了AS的发生发展,抑制CXCL8的表达或可延缓AS的发生发展。     

C57BL／6J-HBV转基因小鼠血清生化指标与性别年龄的关系

目的观察C57BL/6J-HBV乙型肝炎病毒转基因小鼠血清总胆红素（T-BIL）、丙氨酸氨基转移酶（ALT）、天冬氨酸氨基转移酶（AST）、总蛋白（TP）和白蛋白（ALB）与性别和年龄的关系,以及与遗传背景相同的C57BL／6J小鼠的差异。方法选取8周龄和24周龄的C57BL／6J-HBV转基因小鼠及C57BL／6J小鼠的血清测定T-BIL、ALT、AST、TP和ALB值。结果C57BL／6J-HBV转基因小鼠与同周龄同性别的C57BL／6J小鼠相比,T-BIL、ALT、AST、TP和ALB均存在显著差异（P〈0．05）;24周龄的C57BL／6J-HBV转基因小鼠ALT和AST与其8周龄鼠相比均存在显著差异（P〈0．05）。结论C57BL／6J-HBV转基因小鼠T-BIL、ALT、AST、TP和ALB值显著高于C57BL／6J小鼠;且C57BL／6J-HBV转基因小鼠ALT和AST值与年龄有关,与性别无关。     

高脂饮食诱导C57BL/6J肥胖小鼠骨关节炎模型的建立

目的通过高脂饮食诱导C57BL/6J小鼠肥胖来建立骨关节炎模型并观察其病理特征,为肥胖相关骨关节炎研究中动物模型的建立提供实验依据。方法 C57BL/6J雄鼠20只随机分为对照组和高脂组,分别喂饲基础饲料和高脂饲料。每周测体重及摄食量,16周后收集血清,ELISA法检测血清Ⅱ型胶原C端肽水平;取小鼠左下肢膝关节,固定、脱钙、石蜡包埋,切片后行HE及番红O染色并进行修改后的Mankin评分;TUNEL法检测软骨细胞凋亡。结果与对照组相比,高脂组小鼠体重、血清Ⅱ型胶原C端肽水平显著升高,而摄食量方面则无明显差异。HE及番红O染色结果显示,高脂组小鼠的膝关节软骨细胞减少,排列混乱,基质染色不均匀,可出现潮线部分缺失,颜色变浅等;且高脂组的修改后的Mankin评分也显著高于对照组。TUNEL检测结果显示,高脂组小鼠关节软骨凋亡细胞数增多,但与对照组相比差异不显著。结论利用高脂饮食诱导C57BL/6J小鼠肥胖的方法可以建立骨关节炎模型,该模型可用于肥胖相关骨关节炎的研究。     

神经鞘磷脂合成酶2基因的缺失有抗动脉粥样硬化及抗炎作用

本文以神经鞘磷脂合成酶2基因敲除(sphingomyelin synthase 2 knockout,SMS2-/-)小鼠为研究对象,旨在探讨神经鞘磷脂(sphingomyelin,SM)代谢与动脉粥样硬化(atherosclerosis,AS)发生之间的关系。雄性3月龄SMS2-/-小鼠为实验组,同性别同月龄C57BL/6J(wild-type,WT)小鼠为对照组。用高脂高胆固醇饮食喂养两组小鼠,并给予胆盐以促进AS斑块的形成。喂养3个月后解剖观察小鼠主动脉弓,剖开胸腹主动脉进行油红染色以观察AS斑块发生情况;同时收集小鼠腹腔巨噬细胞,用脂多糖刺激后,提取核蛋白用Western blot方法检测核因子κB(nuclear factor-κB,NFκB)p65含量;高脂饮食喂养前后,小鼠断尾取血,酶法测定血清SM水平,用血脂检测试剂盒检测血脂水平。结果显示,高脂饮食喂养3个月后,SMS2-/-小鼠的主动脉弓和胸腹主动脉很少形成AS斑块,而WT小鼠则产生了较多AS斑块;高脂饮食喂养前后,SMS2-/-小鼠血清SM水平均明显低于WT小鼠(P0.05),而血脂水平并无显著性差异(P0.05);高脂饮食喂养后,SMS2-/-小鼠腹腔巨噬细胞经过脂多糖刺激产生的NFκBp65含量明显低于WT小鼠。以上结果提示,SMS2基因的缺失有抗AS及抗炎作用,因而可能成为临床治疗的新策略。     

桂皮醛对高脂喂养小鼠糖脂代谢影响的实验研究

目的：探讨口服桂皮醛对高脂喂养小鼠（C57BL/6J 背景）糖脂代谢的影响。方法：采用雄性C57BL/6J小鼠作为研究对象,分 正常对照组（6 只）,高脂组（6 只）,高脂+ 桂皮醛（40 mg/kg,每天1 次）干预组（6 只）。桂皮醛以0.5 %羧甲基纤维素钠（CMC-Na） 溶解后口服灌胃,每天1 次;正常对照组和高脂组给予灌服等体积的CMC-Na,每天1 次,干预时间为3 月。每周观察体重、空腹血 糖,实验结束后观察胰岛素耐量（IPITT）、葡萄糖耐量（IPGTT）,观察各组小鼠的血脂水平（TC,TG,LDL-C,HDL-C）、胰岛素水 平、肠系膜脂肪重量及以HE 染色观察脂肪细胞形态。结果：在脂代谢方面,桂皮醛干预可显著防止高脂喂养小鼠的体重和血脂水 平的升高;高脂喂养小鼠肠系膜脂肪重量显著增加,HE 染色提示脂肪细胞显著增大;桂皮醛可显著防止肠系膜脂肪重量的增加 及脂肪细胞的变大。而在葡萄糖代谢方面,桂皮醛可显著降低高脂喂养小鼠血糖和胰岛素水平,改善小鼠的葡萄糖耐量和胰岛素 敏感性。结论：口服桂皮醛可显著改善高脂喂养小鼠的糖、脂代谢。     

高脂饮食诱导的C57BL／6J肥胖小鼠脂肪组织RIP140基因表达水平的研究

目的：探讨高脂饮食致肥胖小鼠脂肪组织RIP140mRNA表达水平的变化及其与胰岛素抵抗的关系。方法：将C57BL／6J雄性小鼠随机分为正常饮食（NFD）组、高脂饮食（HFD）纽分别喂养14周后,测量两组小鼠体重,以NFD组小鼠体重作为对照,选取HFD组中体重大于对照组小鼠平均体重20％的小鼠作为肥胖组小鼠。对照组和肥胖组小鼠取血测甘油三酯（TG）、总胆固醇（TC）、空腹血糖（FBG）、空腹胰岛素水平（FIns）,计算稳态模型胰岛素抵抗指数（HOMA-IR）;采用RT—PCR技术检测两组小鼠附睾脂肪组织RIP140 mRNA的表达水平,并进行统计学分析。结果：HDF组小鼠中有12只符合标准计入肥胖组。肥胖组小鼠TG、TC、FBG、Fins（P〈0．05）,HOMA-1R（P〈0．01）均明显高于对照组;肥胖组小鼠脂肪组织RIP140mRNA的表达高于对照组,差异具有统计学意义（P〈0．05）;相关分析显示小鼠脂肪组织R1P140 mRNA表达水平与TG水平呈正相关（r=0．536,P〈0．05）,与胰岛素抵抗指数呈正相关（r=0．465,P〈0．05）,而与TC、FBG、Fins水平相关分析无统计学意义（P〉0．05）。结论：高脂饮食诱导的肥胖小鼠脂肪组织RIP140 mRNA表达增加,并与胰岛素抵抗程度呈正相关。     

Endurance exercise modulates neuromuscular junction of C57BL/6NNia aging mice

Fahim, Mohamed A. Endurance exercise modulatesneuromuscular junction of C57BL/6NNia aging mice. J. Appl. Physiol. 83(1): 59-66, 1997.The effect ofage and endurance exercise on the physiology and morphology ofneuromuscular junctions (NMJ) of gluteus maximus muscle was studied inC57BL/6NNia mice. Mice were exercised, starting at 7 or 25 mo of age,at 28 m/min for 60 min/day, 5 days/wk for 12 wk, on a rodent treadmill.Intracellular recordings of spontaneous miniature endplate potentials(MEPP) and the quantal content of endplate potentials (EPP) wererecorded from NMJ of 10- and 28-mo-old control and exercised mice.Endurance exercise resulted in significant increases in MEPP amplitudes (23%), quantal content, and safety margin, and a significant decrease in MEPP frequency of young mice, with no change in resting membrane potential or membrane capacitance. Three months of endurance exercise resulted in an increase in MEPP frequency (41%) and decreases in MEPPamplitudes (15%), quantal content, and safety margin of old mice.Endurance exercise resulted in significantly larger nerve terminals(24%) in young animals, suggesting functional adaptation. Nerveterminals in exercised 28-mo-old mice were smaller than in thecorresponding control mice, an indication that exercise minimizedage-related nerve terminal elaboration. It is concluded that thedifferent physiological responses of young and old gluteus maximusmuscles to endurance exercise parallel their morphological responses.This suggests that the mouse NMJ undergoes a process of physiologicaland morphological remodeling during aging, and such plasticity could bemodulated differently by endurance exercise.

     

A High-Fat Diet Delays Age-Related Hearing Loss Progression in C57BL/6J Mice

Objective

Age-related hearing loss (AHL), or presbycusis, is the most common sensory disorder among the elderly. We used C57BL/6J mice as an AHL model to determine a possible association between AHL and a high-fat diet (HFD).

Methods

Forty C57BL/6J mice were randomly assigned to a control or HFD group. Each group was divided into the following subgroups: 1-, 3-, 5- and 12-month groups (HFD, n = 5/subgroup; control, n = 5/subgroup). Nine CBA/N-slc mice were also used as a 12-month control (n = 5) or 12-month HFD (n = 4) group. The mice were fed a HFD or normal (control) diet throughout this study. Hearing function was evaluated at 1, 3, 5 and 12 months using auditory evoked brainstem responses (ABRs). Spiral ganglion cells (SGCs) were also counted.

Results

The elevation of ABR thresholds (at 4 and 32 kHz) at 3 and 5 months was significantly suppressed in the HFD group compared with the control groups for C57BL/6J mice. After 12 months, the elevation of ABR thresholds was significantly suppressed in the HFD group at all frequencies for C57BL/6J mice. In contrast, CBA/N-slc mice displayed opposite outcomes, as ABR thresholds at all frequencies at 12 months were significantly elevated in the HFD group compared with the control group. For the C57BL/6J mice at 12 months, SGC numbers significantly decreased in all parts of the cochleae in the control group compared with the HFD groups. In contrast, for the CBA/N-slc mice, SGC numbers significantly decreased, particularly in the upper parts of the cochleae in the HFD group compared with the control groups.

Conclusions

The elevation in ABR thresholds and SGC loss associated with aging in the HFD-fed C57BL/6J mice were significantly suppressed compared with those in the normal diet-fed mice. These results suggest that HFD delays AHL progression in the C57B/6J mice.     

Bone morphogenetic protein receptor type Ia localization causes increased BMP2 signaling in mice exhibiting increased peak bone mass phenotype

Bone morphogenetic protein 2 (BMP2) is a growth factor that initiates osteoblast differentiation. Recent studies show that BMP2 signaling regulates bone mineral density (BMD). BMP2 interacts with BMP receptor type Ia (BMPRIa) and type II receptor leading to the activation of the Smad signaling pathway. BMPRIa must shuttle between distinct plasma membrane domains, enriched of Caveolin‐1 alpha and Caveolin‐1 beta isoforms, and receptor activation occurs in these domains. Yet it remains unknown whether the molecular mechanism that regulates BMP2 signaling is driving mineralization and BMD. Therefore, the B6.C3H‐1‐12 congenic mouse model with increased BMD and osteoblast mineralization was utilized in this study. Using the family image correlation spectroscopy, we determined if BMP2 led to a significant re‐localization of BMPRIa to caveolae of the alpha/beta isoforms in bone marrow stromal cells (BMSCs) isolated from B6.C3H‐1‐12 mice compared to the C57BL/6J mice, which served as controls. The control, C57BL/6J mice, was selected due to only 4 Mb of chromosome 1 from the C3H/HeJ mouse was backcrossed to a C57BL/6J background. Using reporter gene assays, the B6.C3H‐1‐12 BMSCs responded to BMP2 with increased Smad activation. Furthermore, disrupting caveolae reduced the BMP2‐induced Smad signaling in BMSCs isolated from B6.C3H‐1‐12 and C57BL/6J. This study suggests for the first time a regulatory mechanism of BMPRIa signaling at the plasma membrane of BMSCs that (i) associated with genetic differences in the distal Chromosome 1 segment carried by the B6.C3H‐1‐12 congenic and (ii) contributes to increase BMD of the B6.C3H‐1‐12 compared to the C57BL/6J control mice. J. Cell. Physiol. 227: 2870–2879, 2012. © 2011 Wiley Periodicals, Inc.     

Radiation-induced pulmonary endothelial dysfunction and hydroxyproline accumulation in four strains of mice

C57BL mice exposed to 14 Gy of whole-thorax irradiation develop significant histologic lung fibrosis within 52 weeks, whereas CBA and C3H mice do not exhibit substantial fibrosis during this time. The purpose of the present study was to determine whether this strain-dependent difference in radiation histopathology is associated with genetic differences in pulmonary endothelial metabolic activity or in endothelial radioresponsiveness. C57BL/6J, C57BL/10J, CBA/J, and C3H/HeJ mice were sacrificed 12 weeks after exposure to 0 or 14 Gy of 300-kV X rays to the whole thorax. Lung angiotensin converting enzyme (ACE) activity and plasminogen activator (PLA) activity were measured as indices of pulmonary endothelial function; and lung hydroxyproline (HP) content served as an index of pulmonary fibrosis. Lung ACE and PLA activities in sham-irradiated C57BL/6J and CB57BL/10J mice were only half as high as those in sham-irradiated CBA/J and C3H/HeJ mice. Exposure to 14 Gy of X rays produced a slight but nonsignificant reduction in lung ACE and PLA activity in the C57BL strains, and a significant reduction in the CBA/J and C3H/HeJ mice. Even after 14 Gy, however, lung ACE and PLA activities in CBA/J and C3H/HeJ mice were higher than those in sham-irradiated C57BL/6J and C57BL/10J mice. Lung HP content in all four strains increased significantly after irradiation, but this increase was accompanied by an increase in lung wet weight. As a result, HP concentration (per milligram wet weight) remained constant or increased slightly in both C57BL strains and actually decreased in the CBA/J and C3H/HeJ mice. These data demonstrate significant genetic differences in both intrinsic pulmonary endothelial enzyme activity and endothelial radioresponsiveness among the four strains of mice. Specifically, strains prone to radiation-induced pulmonary fibrosis (C57BL/6J, C57BL/10J) exhibit only half as much lung ACE and PLA activity as do strains resistant to fibrosis (CBA and C3H).     

Craniometric measurements of craniofacial malformations in the X-linked hypophosphatemic (Hyp) mouse on two different genetic backgrounds: C57BL/6J and B6C3H.

This study reports data on craniometric measurements in the X-linked hypophosphatemic (Hyp) mouse on two different genetic backgrounds: C57BL/6J and B6C3H. Heads of normal females "+/+," normal males "+/Y," heterozygous mutant females "Hyp/+," and hemizygous mutant males "Hyp/Y" for each genetic background were examined. Data were collected via skull measurements. On a C57BL/6J background, the neurocranium of mutants "Hyp/+" and "Hyp/Y" was shorter and slightly higher than in normal counterparts. On a B6C3H background, mutant mice "Hyp/+" and "Hyp/Y" were shorter in neurocranial length than in normal counterparts. Viscerocranial height was larger in "Hyp/Y" than in normal counterparts. No differences in neurocranial and mandibular height were found. Mutant mice on a C57BL/6J background were compared to mutant mice on a B6C3H background. No differences in neurocranial length were found. Cranial length was shorter in "Hyp/Y" on C57BL/6J than in "Hyp/+" on B6C3H. Facial length parameters were shorter in "Hyp/Y" on C57BL/6J than in "Hyp/Y" and "Hyp/+" mutant mice on B6C3H. Mandibular length was shorter in "Hyp/Y" on C57BL/6J than in "Hyp/+" on C57BL/6J and both mutant mice ("Hyp/Y" and "Hyp/+") on a B6C3H background. The results of this study indicate that craniofacial growth is less affected in mutant mice on a B6C3H genetic background than in mutant mice on a C57BL/6J genetic background.     

Variation in Type 2 Diabetes-Related Phenotypes among Apolipoprotein E-Deficient Mouse Strains

We recently have found that apolipoprotein E-deficient (Apoe^-/-) mice with the C57BL/6 background develop type 2 diabetes when fed a Western diet for 12 weeks. In the present study we constructed multiple Apoe^-/- mouse strains to find diabetes-related phenotyptic variations that might be linked to atherosclerosis development. Evaluation of both early and advanced lesion formation in aortic root revealed that C57BL/6, SWR/J, and SM/J Apoe^-/- mice were susceptible to atherosclerosis and that C3H/HeJ and BALB/cJ Apoe^-/- mice were relatively resistant. On a chow diet, fasting plasma glucose varied among strains with C3H/HeJ having the highest (171.1 ± 9.7 mg/dl) and BALB/cJ the lowest level (104.0 ± 6.6 mg/dl). On a Western diet, fasting plasma glucose rose significantly in all strains, with C57BL/6, C3H/HeJ and SWR/J exceeding 250 mg/dl. BALB/cJ and C3H/HeJ were more tolerant to glucose loading than the other 3 strains. C57BL/6 was sensitive to insulin while other strains were not. Non-fasting blood glucose was significantly lower in C3H/HeJ and BALB/cJ than C57BL/6, SM/J, and SWR/J. Glucose loading induced the 1st and the 2nd phase of insulin secretion in BALB/cJ, but the 2nd phase was not observed in other strains. Morphological analysis showed that BALB/cJ had the largest islet area (1,421,493 ± 61,244 μm²) and C57BL/6 had the smallest one (747,635 ± 41,798 μm²). This study has demonstrated strain-specific variations in the metabolic and atherosclerotic phenotypes, thus laying the basis for future genetic characterization.     

Strain-dependent differences in responses to exercise training in inbred and hybrid mice

The aim of this study was to characterize the response to exercise training in several mouse strains and estimate the genetic contribution to phenotypic variation in the responses to exercise training. Male mice from three inbred strains [C57Bl/6J (BL6), FVB/NJ (FVB), and Balb/cJ (Balb/c)] and three hybrid F(1) strains [CB6F1/J (CB6 = female Balb/c x male BL6), B6F F(1) (female BL6 x male FVB), and FB6 F(1) (female FVB x male BL6)] completed an exercise performance test before and after a 4-wk treadmill running program. Distance was used as the primary estimate of endurance exercise performance. FVB mice showed the greatest response to training, with five- to sevenfold greater increases in distance run compared with BL6 and Balb/c strains. Specifically, BL6, FVB, and Balb/c strains increased distance by 33, 172, and 23%, respectively. A similar pattern of changes across strains was observed for run time (17, 87, and 11%) and work (99, 287, and 57%). As a group, F(1) hybrid mice derived from BL6 and FVB strains showed an intermediate response to training (61%). However, further analysis indicated that training responses in FB6 F(1) mice (80%) were approximately 2.5-fold greater than responses in B6F F(1) mice (33%, P = 0.08). A similar pattern of changes between FB6 and B6F F(1) mice was observed for run time (44.5 and 17%) and work (141 and 59%). These data demonstrate that there are large strain-dependent differences in training responses among inbred mouse strains, suggesting that genetic background contributes significantly to adaptation to exercise. Furthermore, the contrasting responses in B6F and FB6 F(1) strains show that a maternal component strongly influences strain-dependent differences in training responses.     

Genetic control of serum neutralizing-antibody response to rabies vaccination and survival after a rabies challenge infection in mice.

Quantitative differences in serum neutralizing-antibody (SNAb) responses to rabies vaccination and survival after a rabies challenge infection between two inbred mice strains, C3H/J and C57BL/6J, were shown to be under genetic control. A 99% confidence limit calculated from the SNAb response titers of 14 C57BL/6J mice resulted in an upper limit for the SNAb response titer of C57BL/6J mice at 50.63. A SNAb titer less than or equal to 50.63 in response to rabies vaccination was assigned the phenotype of hyporesponder, and a SNAb titer greater than 50.63 in response to rabies vaccination was assigned the phenotype of hyperresponder in this study. The hyper-SNAb response to rabies vaccination and the higher frequency of survival after rabies challenge infection behave as Mendelian dominant alleles in F1 hybrids (C3H/J X C57BL/6J) and backcross (BC) (F1 [C3H/J X C57BL/6J] X C57BL/6J) progeny. Both a relatively hyper-SNAb response and a higher frequency of vaccine-inducible survival phenotypes occur in C3H/J mice. On the other hand, both the relatively hypo-SNAb response and a lower frequency of vaccine-inducible survival phenotypes behave as Mendelian recessive alleles and occur in C57BL/6J mice. C3H/J mice are H-2 Kk, and C57BL/6J mice are H-2 Kb. All three phenotypic traits (H-2 type, SNAb response, and survival after rabies challenge infection) segregate as independent (unlinked) monogenic traits in BC progeny (F1 [C3H/J X C57BL/6J] X C57BL/6J). The genetically controlled survival trait is inducible by rabies vaccination, but SNAb response is not a parameter that measures successful vaccine induction of preexposure protection from a rabies challenge infection in the BC progeny. The essential role of vaccination in developing preexposure protection in genetically responsive mice is confirmed, but indicates that in vitro measurements other than SNAb titers need to be developed to identify mice that have failed to achieve preexposure protection by rabies vaccination. This study confirms Lodmell's findings (D. L. Lodmell and B. Chesebro, J. Virol. 50:359-362, 1984; D. L. Lodmell, J. Exp. Med. 157:451-460, 1983) that susceptibility to rabies infection is genetically controlled in some mice strains. Additionally, this study indicates that conventional rabies vaccination even with more potent vaccines may not induce protection from infection in some genetically susceptible individuals.     

Synthetic low and high fat diets for the study of atherosclerosis in the mouse

Diets currently used to produce atherosclerotic lesions in mice are often undefined and cause accumulation of fat in the liver and gallstone formation. Therefore, synthetic low and high fat diets of known composition were formulated in this study. A synthetic diet containing 50% sucrose, 15% cocoa butter, 1% cholesterol, and 0.5% sodium cholate was found to produce a depression in high density lipoprotein cholesterol (HDL-C) and an elevation of very low density lipoprotein (VLDL) and low density lipoprotein cholesterol (LDL-C) in the atherosclerosis-susceptible strain, C57BL/6J. This diet was able to consistently produce aortic lesions and led to a decrease in liver damage and gallstone formation. The synthetic low fat diet did not produce HDL-C levels as high as those found in mice fed chow, but resulted in similar VLDL/LDL-C levels. Lipoprotein and apolipoprotein parameters were compared in C57BL/6J and the atherosclerosis-resistant strain, C3H/HeJ, consuming the synthetic low fat or high fat diets. As reported earlier, when consuming a high fat diet C57BL/6J mice have significantly lower HDL-C and apoA-I levels than C3H/HeJ mice. Further analysis shows that the molar ratio of plasma HDL-C to apoA-I is significantly lower in C57BL/6J mice, suggesting that HDL in the susceptible strain has a lower cholesterol-carrying capacity. This conclusion is consistent with the observation that the HDL particle size is smaller for C57BL/6J mice than for C3H/HeJ. Both strains increased their apoE levels when fed the synthetic high fat diet, but C3H/HeJ mice had higher levels of apoE on both diets. The major response to consumption of the high fat diet for both strains was an increase in apoB-48 from 5 micrograms/ml on a low fat diet to 54 and 109 micrograms/ml for C57BL/6J and C3H/HeJ, respectively. ApoB-100 showed minimal response to the high fat diet. The defined high fat diet can be used to study atherosclerosis in the mouse since it produces aortic lesions but reduces or eliminates other pathological changes such as gallstone formation and liver damage.