B-hDMD(exon44-46, del45) mice

C57BL/6JNifdc-Dmdtm1(mDmd Exon44-46 del; hDMD Exon44, Exon46 ins)Bcgen/Bcgen • 114088

B-hDLL4 mice
B-hDMD(exon51-53, del52) mice

B-hDMD(exon44-46, del45) mice

Catalog Number: 114088
Strain Name: C57BL/6JNifdc-Dmdtm1(mDmd Exon44-46 del; hDMD Exon44, Exon46 ins)Bcgen/Bcgen
Strain Background: C57BL/6JNifdc
NCBI gene ID: 13405 (Human)
Aliases: dys; mdx; pke; Dp71; Dp427; DXSmh7; DXSmh9
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B-hDMD(exon44-46, del45) mice

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  • Description
  • Targeting strategy
  • Phenotypic analysis
  • Physiological data

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      Description

      DMD: Mutations in this gene lead to severe, progressive muscle-wasting disorders.

      • Gene Information: Human Dystrophin protein is encoded by DMD gene. Human DMD gene is one of the largest human genes, located on the short arm of X chromosome.
      • Protein Expression: Dystrophin is a large protein with a molecular weight of approximately 427 kDa. Dystrophin is primarily expressed on the inner surface of the sarcolemma in skeletal, cardiac, and smooth muscle tissues. It is also expressed at lower levels in specific neurons within the brain.
      • Signaling Pathway: During muscle contraction and relaxation, the sarcolemma experiences severe mechanical stress. Dystrophin links the intracellular actin cytoskeleton to the extracellular matrix. In the absence of dystrophin, muscle tissue becomes vulnerable to contraction-induced damage.
      • Therapeutic Application: Genetic interventions including micro-dystrophin delivery represent a promising approach for the treatment of Duchenne Muscular Dystrophin.
      Targeting strategy

      DMD

      • The exon 44, exon 45 and exon 46 of mouse Dmd are replaced by exon 44 and exon 46 of human DMD in B-hDMD(exon44-46, del45) mice.
      • The human exon 44 is flanked by ~1kb of human intron 43 and human intron 44 sequences, while human exon 46 is flanked by ~1kb of human intron 45 and human intron 46 sequences.
      mRNA Expression by RT-PCR
      • The transcripts in homozygous mice are shorter than those in wild-type mice, and the sequences were confirmed via Sanger sequencing.

      Strain specific analysis of DMD mRNA expression in wild-type C57BL/6JNifdc mice and homozygous B-hDMD(exon44-46, del45) mice by RT-PCR. Heart and skeletal muscle RNA were isolated from wild-type C57BL/6JNifdc mice (+/+) and homozygous B-hDMD(exon44-46, del45) mice (H/Y), then cDNA libraries were synthesized by reverse transcription, followed by PCR with mouse Dmd primers. (A) Primers were designed to detect the human exon 44 and exon 46. (B) The transcripts in homozygous mice are shorter than those in wild-type mice, and the sequences were confirmed via Sanger sequencing, demonstrating the successful exon splicing in B-hDMD(exon 44-46, del45) mice.

      DMD Protein Expression Analysis
      • DMD was only detected in heart, skeletal muscle, skin and brain from wild-type mice but not in B-hDMD(exon44-46, del45) mice.

      Western blot analysis of DMD protein expression in wild-type C57BL/6JNifdc mice and homozygous B-hDMD(exon44-46, del45) mice. Various tissue lysates were collected from wild-type C57BL/6JNifdc mice (+/+) and homozygous B-hDMD(exon44-46, del45) mice (H/Y), and then analyzed by western blot with anti-Dystrophin antibody (Sigma-Aldrich, D8168). 40 μg total proteins were loaded for western blot analysis. DMD was only detected in heart, skeletal muscle, skin and brain from wild-type mice but not in homozygous B-hDMD(exon44-46, del45) mice.

      Creatine Kinase Activity Analysis
      • Creatine kinase activity was significantly greater in homozygous B-hDMD(exon44-46, del45) mice compared to that in wild-type mice.

      Serum creatine kinase activity analysis in wild-type C57BL/6JNifdc mice and homozygous B-hDMD(exon44-46, del45) mice by colorimetric. Serum was collected from wild-type C57BL/6JNifdc mice (+/+, n=3, 6-week-old male) and homozygous B-hDMD(exon44-46, del45) mice (H/Y, n=3, 6-week-old male). Creatine kinase activity was analyzed by colorimetric in a kinetic mode every 2 min for a total of 36 min at 37℃ (creatine kinase activity assay kit: Abcam, ab155901). OD450 readings were linear between T1 (at time 6) and T2 (12min for WT and homozygous mice). Creatine kinase activity was significantly greater in homozygous B-hDMD(exon44-46, del45) mice compared to that in wild-type mice. Significance was determined by unpaired t test.  *P < 0.05.

      Histopathological Analysis
      • Muscle from homozygous B-hDMD(exon44-46, del45) mice displayed inflammation and centrally-located nuclei.

      Representative histological images of skeletal muscle from wild-type C57BL/6JNifdc and homozygous B-hDMD(exon44-46, del45) mice. Gastrocnemius and soleus muscle sections from 4-month-old wild-type C57BL/6JNifdc and homozygous B-hDMD(exon44-46, del45) mice were presented to display histopathological phenotypes. Gastrocnemius and soleus muscle were stained with hematoxylin and eosin (H&E). Tissue histology was normal for wild-type control mice, but the muscle from homozygous B-hDMD(exon44-46, del45) mice displayed inflammation (red arrow) and centrally-located nuclei (black arrow).

      Behavioral Performance Analysis
      • Grip strength produced by forelimb in homozygous B-hDMD(exon44-46, del45) mice was significant weaker than those in wild-type mice.

      Behavioral performance in wild-type C57BL/6JNifdc and homozygous B-hDMD(exon44-46, del45) mice. Grip strength tests were conducted to assay the behavioral performance in wild-type C57BL/6JNifdc and homozygous B-hDMD(exon44-46, del45) mice (male, 6-, 12-week-old, n=9-10). Grip strength produced by forelimb in homozygous B-hDMD(exon44-46, del45) mice was significant weaker than those in wild-type control mice at all the two time points. All grip strength measurements are normalized to the individual animal’s body weight. Values are expressed as mean ± SEM. At each time point, significance was determined by unpaired t test.  *P < 0.05, **P < 0.01, ***P < 0.001.

      • The latency to fall, rodspeed and total distance were significantly decreased in homozygous B-hDMD(exon44-46, del45) mice.

      Behavioral performance in wild-type C57BL/6JNifdc and homozygous B-hDMD(exon44-46, del45) mice. Rotarod tests were conducted to assay the behavioral performance in wild-type C57BL/6JNifdc and homozygous B-hDMD(exon44-46, del45) mice (male, 6-, 12-week-old, n=9-10). Rotarod tests were performed to assay the motor coordination. The latency to fall, rodspeed and total distance were significantly decreased in homozygous B-hDMD(exon44-46, del45) mice at all the two time points, showing the impairment of motor coordination and balance. Values are expressed as mean ± SEM. At each time point significance was determined by unpaired t test.  *P < 0.05, **P < 0.01, ***P < 0.001.

      * When publishing results obtained using this animal model, please acknowledge the source as follows: The animal model [B-hDMD(exon44-46, del45) mice] (Cat# 114088) was purchased from Biocytogen.