Segmental Adeno-Cre Infection: A Technique to Generate Isolated Colorectal Cancer using Genetically Engineered Mouse Models

Published: April 30, 2023

Abstract

Source: Betzler, A. M., et al. A Genetically Engineered Mouse Model of Sporadic Colorectal Cancer. J. Vis. Exp. (2017).

This video describes the generation of a colorectal mouse model by segmental adeno-cre infection. The infected colon segment leads to tumorigenesis within this segment of the mucosa, resulting in adenomas ultimately progressing to invasive and metastatic carcinoma. This model is an attractive platform for studies of cancer biology and preclinical therapeutic trials.

Protocol

All procedures involving animal models have been reviewed by the local institutional animal care committee and the JoVE veterinary review board.

1. Local Tumor Induction via Surgical Adeno-cre Infection

  1. Preparation of animals for surgery
    NOTE: Virtually any conditional ("floxed") mutation can be induced via the here described method. The use of mutations in genes relevant to colorectal cancer, such as Apc, Kras, or Tp53, is recommended. The efficiency of Cre recombination is dependent on the size of the construct to be excised. Large floxed sequences are excised less efficiently. The recombination of all alleles should be confirmed in the tumors by PCR.
    1. For the development of colorectal tumors, use a cross of the following conditional alleles for a basic model of CRC (MGI database number in brackets):
      Apctm2Rak (MGI: 3688435)
      Krastm4Tyj (MGI: 2429948)
      Tp53tm2Tyj (MGI: 3039263)
    2. If a fluorescence reporter allele is required (e.g., to detect micrometastases), use the following allele:
      Gt(ROSA)26Sortm6(CAG-ZsGreen1)Hze (MGI: 3809522)
      NOTE: All above strains are available via the NCI Mouse Repository or the Jackson Laboratory. No fasting is required as all remaining fecal matter can be flushed out before the adenoviral infection. Preoperative fasting leads to higher perioperative mortality and constitutes tremendous stress for small rodents.
    3. Use sevoflurane at 3 – 3.5 vol% for general anesthesia. A loss of the toe pinch reflex indicates sufficient anesthesia.
    4. Before the first incision, inject 0.05 mg/kg of buprenorphine subcutaneously.
    5. Cover the eyes of the anesthetized mouse with ophthalmic ointment to avoid desiccation of the cornea.
    6. Place the mouse in a supine position on a small table. Use non-traumatic adhesive tapes to restrain the mouse.
    7. Shave the abdomen with an electric shaver (depilatory cream can be used alternatively) and disinfect with alcohol swabs or iodine. Use the contact time recommended by the manufacturer.
    8. Cover the surgical field with sterile drapes.
      NOTE: The use of perioperative antibiotics is optional and subject to institutional guidelines.
    9. Use sterile single-use or sterilized instruments for all surgical procedures.
  2. Midline laparotomy and exposure of the colon
    1. Use scissors (scalpels can be used alternatively) to make a midline incision (~ 15 mm) on the skin of the lower abdomen.
    2. Pick up the abdominal wall musculature with forceps and carefully incise it with scissors, opening the abdominal cavity.
    3. Identify the distal colon, only touch it with atraumatic forceps. Clamp the colon with a delicate clamp (e.g., a Micro Serrefine vascular clamp) approximately 15 mm proximally of the anus.
      NOTE: Give special attention to the vulnerability of the colon at all times. Perforation inevitably leads to peritonitis and sepsis and requires euthanasia of the animal.
  3. Segmental colon infection with Adeno-cre virus
    1. Insert a flexible Teflon tube transanally and carefully advance it until it reaches the lumen occlusion achieved by the clamp previously placed 15 mm from the anal verge. Do not use excessive force as this may lead to perforation.
    2. Cannulate the tube with a 30G cannula, connect a standard 1 mL syringe, and flush the colon with normal saline to evacuate remaining fecal matter. This may require several mL of saline.
    3. Once the distal colon is empty, remove the tube and replace it with a fresh Teflon tube and again position it directly distal to the clamp as described above.
    4. Occlude the colon with a second clamp ~ 3 mm distal to the proximal clamp (i.e., over the inserted tube, ~ 12 mm from the anal verge), resulting in a 3 mm isolated segment to be infected.
      NOTE: For distal occlusion of the segment, Fogarty coronary artery clips have proven to be most suitable as they are rubberized, leading to tight occlusion of the colon despite the intraluminal tube between the clamp's branches.
    5. Use a second syringe (standard 1 mL with a 30G cannula) to carefully inject 50 – 80 µL of 0.25% Trypsin-EDTA into the clamped colon segment and incubate for 10 min. Leave the cannula and the syringe attached to the Teflon tube to prevent the fluid from leaking back.
      NOTE: The colon must be inflated to break up the mucosal barrier and reach the crypt stem cells, yet not too inflated to avoid perforation of the clamped segment.
    6. First, remove the distal clamp and then the trypsin tube.
    7. Flush the distal colon with ~ 500 µL of normal saline to remove the remaining trypsin.
    8. Insert a new Teflon tube, put the distal clamp back in place, and inflate the colon segment with 50 – 80 µL of adenoviral solution (1011 plaque-forming units (PFU)/mL in phosphate-buffered saline) and incubate for 30 min (Figure 2A).
      NOTE: Do not spill viral solution as contact with adeno-cre may lead to tumor development in any tissue of conditionally mutant mice.
    9. Remove the clamps and the tube.
  4. Closure of the abdomen and postoperative recovery
    1. Close the abdominal wall with 6-0 rapidly absorbable running sutures (e.g., polydioxanone (PDS)).
    2. Close the skin with surgical wound clips.
    3. Place the mouse on a heating pad set to 38 °C until fully recovered from the anesthesia.
    4. Administer another bolus of 0.05 mg/kg buprenorphine i.p. 12 h after surgery, followed by additional buprenorphine boluses every 12 h if needed.
    5. Monitor the mice at least once daily for signs of distress due to tumor growth.

2. Colonoscopy

NOTE: Depending on the conditional mutations used, adenoviral infection leads to endoscopically visible tumors within 2 – 4 weeks. Therefore, perform the first postoperative colonoscopy 2 weeks after the adenoviral induction and repeat every 2 weeks. A commercially available system is recommended for murine colonoscopy.

  1. Preparation of animals for colonoscopy
    NOTE: No fasting is required. The remaining fecal matter is usually well-formed in the distal colon and can be pushed beyond the tumor during colonoscopy, making the stressful process of repeated fasting unnecessary.
    1. Use sevoflurane at 3 – 3.5 vol% for general anesthesia. A loss of the toe pinch reflex indicates sufficient anesthesia.
    2. Cover the eyes of the anesthetized mice with ophthalmic ointment to avoid desiccation of the cornea.
    3. Restrain the mice in a supine position on a small table.
  2. Colonoscopy
    1. Insert the scope (diameter 1.9 mm; length 10 cm) into the intestinal tract through the anus and carefully insufflate air under visual control to distend the colon. Do not insufflate more air than required for the examination.
      NOTE: For air insufflation, the anti-fog air pump of the colonoscopy system may be used. If no anti-fog air pump is available, any other air pump with very low-pressure settings can be used or pressurized air with a delicate pressure-reducing valve. Carbon dioxide (CO2) easily leads to acidosis in small rodents and must therefore be avoided.
    2. Carefully push the scope forward until a mucosal lesion in the distal colon can be identified (Figure 1A – 1D).
    3. Save endoscopic images for later evaluation. An endoscopic scoring system for intraluminal tumors has been described before.
    4. Carefully remove the scope and place the mouse on a heating pad set to 38 °C until it has fully recovered from the anesthesia.

Representative Results

Figure 1
Figure 1. Colonoscopic Images of Colorectal Tumors (Conditional Alleles of the Given Animal in Brackets).
A. Normal distal colon. B. Early adenoma 2 weeks after adeno-cre infection. Note the green color due to a GFP reporter allele in this mouse. (Apctm2Rak, Krastm4Tyj, Gt(ROSA)26Sortm6(CAG-ZsGreen1)Hze). C. Late adenoma (Apctm2Rak, Krastm4Tyj). D. Colorectal adenocarcinoma (as diagnosed by pathology after the colonoscopy images were obtained; Apctm2Rak, Krastm4Tyj, Tp53tm2Tyj). 

Figure 2
Figure 2. A. Intraoperative Situs. Note the large, rubberized Fogarty clip at the bottom and the transanally inserted tube for adeno-cre injection (red arrow). B. Colorectal tumor (white arrow) with consecutive large bowel obstruction 8 weeks after adeno-cre infection (Apctm2Rak, Krastm4Tyj, Tp53tm2Tyj). C. Colorectal tumor (white arrow) 10 weeks after adeno-cre infection (Apctm2Rak, Krastm4Tyj, Gt(ROSA)26Sortm6(CAG-ZsGreen1)Hze). Note the greenish color due to a green fluorescent protein (GFP) reporter allele in this mouse. D. Peritoneal carcinosis (black arrows) in the GEMM (Apctm2Rak, Krastm4Tyj, Tp53tm2Tyj). Liver and intestine have been removed to expose the kidneys and the diaphragm. E. Gross hepatic metastases in the GEMM 12 weeks after adeno-cre infection (Apctm2Rak, Krastm4Tyj). F. Colon with tumor after removal from the animal depicted in Figure 2C.

Disclosures

The authors have nothing to disclose.

Materials

Dulbecco's Phosphate Buffered Saline  Life Technologies GmbH  14190169
Trypsin-EDTA (0.25%, PhenolRed)  Life Technologies GmbH  25200072
Normal saline 0.9% (E154)  Serumwerk Bernburg AG  10013
Aqua ad injectabilia  B. Braun Melsungen AG  235144
Ad5CMV-Cre (adenovirus, c = 2E +11 PFU/mL)  Gene Transfer Vector Core University of Iowa
15 mL, 50 mL centrifuge tubes   Greiner Bio-One GmbH 188271/227270
Eppendorf tubes 1.5 mL/ 2 mL  Sarstedt AG & Co.  72,695,400
Petri dish PS 100/15 mm (sterile, Nuclon)  Fisher Scientific GmbH  10508921/ NUNC150350
1 mL Syringe (without dead volume) – Injekt-F SOLO  Braun/neoLab  194291661
30G injection needle  BECTON DICKINSON 304000
Sevoflurane (Sevoflurane AbbVie)  AbbVie Germany GmbH & Co. KG
Medical oxygen  Air Liquide Medical GmbH
Buprenorphine (Temgesic) Indivior Eu Ltd.
Bepanthen – ophthalmic ointment  Bayer Vital GmbH  10047757
Table Top Research Anesthesia Machine x/O2 Flush w/ Sevoflurane Vaporizer Parkland Scientific  V3000PS/PK
Cellulose swabs  Lohmann & Rauscher Deutschland  13356
Insulin syringe EMG 1 mL (with 30G cannula) B. Braun Melsungen AG 9161627S
Fine Bore Tubing (bore: 0.28 mm/ diameter: 0.61mm) Smiths Medical Deutschland 8 800/100/100
Micro-Adson Forceps Fine Science Tools 11018-12
Iris Scissor – ToughCut Fine Science Tools 14058-11
Olsen-Hegar Needle Holder Fine Science Tools 12002-12
AutoClip Kit Fine Science Tools 12020-00
PDS Z1012H 6/0 C1 (surgical suture) Johnson & Johnson Medical GmbH Z1012H
Curved Micro Serrefine Vascular Clamp Fine Science Tools 18055-05
Fogarty Spring Clips Edwards CDSAFE 6
Hot Plate 062 Labotect  13854
Isis – Hair shaver Aesculap – Braun
Cold Light Fountain XENON 175 Karl Storz 20132101-1 Karl Storz Coloview System Mainz
Fiber Optic Light Cable Karl Storz 69495NL Karl Storz Coloview System Mainz
TRICAM Three-Chip Camera Head Karl Storz 20221030 Karl Storz Coloview System Mainz
TRICAM SLII Camera Control Unit Karl Storz 20223011-1 Karl Storz Coloview System Mainz
15" Flat Screen Monitor EndoVue Karl Storz 9415NN Karl Storz Coloview System Mainz
HOPKINS Straight Forward Telescope diameter 1.9 mm; length 10 cm autoclavable fiber optic light transmission incorporated Karl Storz 64301AA
Protection and Examination Sheath Karl Storz 61029C

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Cite This Article
Segmental Adeno-Cre Infection: A Technique to Generate Isolated Colorectal Cancer using Genetically Engineered Mouse Models. J. Vis. Exp. (Pending Publication), e20338, doi: (2023).

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