Tumor-targeting amino acid auxotrophic <Emphasis Type="Italic">Salmonella typhimurium</Emphasis>

We have developed an effective bacterial cancer therapy strategy by targeting viable tumor tissue using Salmonella typhimurium auxotrophs that we have generated which grow in viable as well as necrotic areas of tumors. However, the auxotrophy severely restricts growth of these bacteria in normal tissue. The S. typhimurium A1-R mutant, which is auxotrophic for leu-arg and has high anti-tumor virulence, was developed in our laboratory. In vitro, A1-R infects tumor cells and causes nuclear destruction. A1-R was initially used to treat metastatic human prostate and breast tumors that had been orthotopically implanted in nude mice. Forty percent of treated mice were cured completely and survived as long as non-tumor-bearing mice. A1-R administered i.v. to nude mice with primary osteosarcoma and lung metastasis was highly effective, especially against metastasis. A1-R was also targeted to both axillary lymph and popliteal lymph node metastasis of human pancreatic cancer and fibrosarcoma, respectively, as well as lung metastasis of the fibrosarcoma in nude mice. The bacteria were delivered via a lymphatic channel to target the lymph node metastases and systemically via the tail vein to target the lung metastasis. The metastases were cured without the need of chemotherapy or any other treatment. A1-R was administered intratumorally to nude mice with an orthotopically transplanted human pancreatic tumor. The primary pancreatic cancer regressed without additional chemotherapy or any other treatment. A1-R was also effective against pancreatic cancer liver metastasis when administered intrasplenically to nude mice. The approach described here, where bacterial monotherapy effectively treats primary and metastatic tumors, is a significant improvement over previous bacterial tumor-therapy strategies that require combination with toxic chemotherapy. Three promoter clones engineered in S. enterica typhimurium were identified to have enhanced expression in bacteria growing in tumors relative to those growing in the spleen. The expression of therapeutics in Salmonella under the regulation of one or more promoters that are activated preferentially in tumors has the potential to improve the efficacy of Salmonella tumor therapy. Exploitation of the tumor-killing capability of Salmonella has great promise for a new paradigm of cancer therapy.     

Systemic targeting of primary bone tumor and lung metastasis of high-grade osteosarcoma in nude mice with a tumor-selective strain of Salmonella typhymurium

We report here a new targeting strategy for primary bone tumor and lung metastasis with a modified auxotrophic strain of Salmonella typhimurium. We have previously developed the genetically-modified strain of S. typhimurium, selected for tumor targeting and therapy in vivo. Normal tissue is cleared of these bacteria even in immunodeficient athymic mice with no apparent side effects. In this study, the tumor-targeting strain of S. typhimurium, termed A1-R, was administered i.v. to nude mice which have primary bone tumor and lung metastasis. Primary bone tumor was obtained by orthotopic intratibial injection of 5 x 105 143B-RFP (red fluorescent protein) human osteosarcoma cells. One group of mice was treated with A1-R expressing GFP (green fluorescent protein) and another group was used a as control. A1-R (5 x 107 colony-forming units) was injected in the tail vein three times on weekly basis. On day 28, lung samples were excised and observed with the Olympus OV100 Small Animal Imaging System. The size of the primary tumor and RFP intensity of lung metastasis were measured. Primary bone tumor size (fluorescence area [mm2]) was 232 ± 70 in the untreated group and 95 ± 23 in the treated group (P     

Real‐time imaging of single cancer‐cell dynamics of lung metastasis

We have developed a new in vivo mouse model to image single cancer‐cell dynamics of metastasis to the lung in real‐time. Regulating airflow volume with a novel endotracheal intubation method enabled controlling lung expansion adequate for imaging of the exposed lung surface. Cancer cells expressing green fluorescent protein (GFP) in the nucleus and red fluorescent protein (RFP) in the cytoplasm were injected in the tail vein of the mouse. The right chest wall was then opened in order to image metastases on the lung surface directly. After each observation, the chest wall was sutured and the air was suctioned in order to re‐inflate the lung, in order to keep the mice alive. Observations have been carried out for up to 8 h per session and repeated up to six times per mouse thus far. The seeding and arresting of single cancer cells on the lung, accumulation of cancer‐cell emboli, cancer‐cell viability, and metastatic colony formation were imaged in real‐time. This new technology makes it possible to observe real‐time monitoring of cancer‐cell dynamics of metastasis in the lung and to identify potential metastatic stem cells. J. Cell. Biochem. 109: 58–64, 2010. © 2009 Wiley‐Liss, Inc.     

Tumor‐targeting Salmonella typhimurium A1‐R arrests a doxorubicin‐resistant PDGFRA‐amplified patient‐derived orthotopic xenograft mouse model of pleomorphic liposarcoma

Pleomorphic liposarcoma (PLPS) is a recalcitrant soft‐tissue sarcoma (STS) subtype in need of transformative therapy. We have previously established a patient‐derived orthotopic xenograft (PDOX) model, of PLPS with PDGFRA amplification, using surgical orthotopic implantation. In the current study, the PLPS PDOX model was randomized into 3 groups of 7 mice each: untreated control; doxorubicin (DOX)‐treated; and treated with Salmonella typhimurium A1‐R (S. typhimurium A1‐R) expressing green fluorescent protein (GFP). Tumor volume and body weight were monitored during the treatment period. The PLPS PDOX was resistant to DOX. In contrast, the PLPS PDOX was highly sensitive to S. typhimurium A1‐R. There was no significant body‐weight loss among these 3 groups. Fluorescence imaging demonstrated that S. typhimurium A1‐R‐GFP was very effective to target the PLPS PDOX tumor. The current study demonstrates that a PLPS PDOX, resistant to first‐line therapy DOX, was highly sensitive to tumor targeting S. typhimurium A1‐R.     

In vivo gene transfer between interacting human osteosarcoma cell lines is associated with acquisition of enhanced metastatic potential

We report here in vivo gene transfer between cancer cells is associated with acquisition of high metastatic behavior. The 143B‐GFP cell line with high metastatic potential and the MNNG/HOS‐RFP cell line with low metastatic potential, both derived from the TE85 human osteosarcoma cell line, were either co‐transplanted or transplanted alone in the tibia in nude mice. Upon mixed transplantation of the two differently labeled sublines, resulting metastatic colonies are single colored either red or green, thereby demonstrating their clonality and enabling facile color‐coded quantification. When MNNG/HOS‐RFP and 143B‐GFP were co‐transplanted in the tibia, the number of lung metastases of MNNG/HOS‐RFP increased eight‐fold compared to MNNG/HOS‐RFP transplanted alone (P < 0.01). In contrast, no enhancement of MNNG/HOS‐RFP metastases occurred when MNNG/HOS‐RFP and 143B‐GFP were transplanted separately in the right and left tibiae, respectively. This result suggests that the presence of 143B‐GFP increased the metastatic potential of MNNG/HOS‐RFP within the mixed tumor. We observed transfer of the Ki‐ras gene from 143B‐GFP to MNNG/HOS‐RFP after they were co‐implanted suggesting the Ki‐ras played a role in increasing the metastatic potential of MNNG/HOS‐RFP in the presence of 143B‐GFP. These data suggest the possible role of in vivo gene transfer in enhancing the metastatic potential of cancer cells. The data also further demonstrated the power of color‐coded imaging to visualize cancer‐cell/cancer‐cell interactions in vivo. J. Cell. Biochem. 108: 362–367, 2009. © 2009 Wiley‐Liss, Inc.     

Loss of a reporter gene for green fluorescent protein during tumor progression suggests the recruitment of host cells in rats with experimentally induced colon cancer

The interactions between a host's normal cells and tumor cells appear to be of significant importance during the development of tumors. In the present study, we examined this issue using a cancer model in vivo in which tumor cells were tagged with a reporter gene for green fluorescent protein (GFP). We used a model of colon cancer in immunocompetent rats, which were given a subcutaneous injection of tumor cells that had been transfected with a gene for GFP. We found that the number of fluorescent cells decreased with the progression of the primary tumors and that lymph node and lung metastases were never macroscopically fluorescent. No GFP-encoding sequences were detected by PCR in many of the long-term primary tumors, in most lymph node metastases (86%) and in all lung metastases, whereas the detection of mutated k-ras, which identified such cells as tumor cells, was always positive. To explain these findings, we present a brief review of the literature and postulate that tumor growth did not occur exclusively as a result of the division of the injected cells, but also involved recruitment of host cells.     

Vessel destruction by tumor-targeting Salmonella typhimurium A1-R is enhanced by high tumor vascularity

Our laboratory has previously developed a tumor-targeting double-auxotrophic mutant of Salmonella typhimurium termed A1-R. The present report demonstrates that S. typhimurium A1-R destroys tumor blood vessels and this is enhanced in tumors with high vascularity. Red fluorescent protein (RFP)-expressing Lewis lung cancer cells (LLC-RFP) were transplanted subcutaneously in the ear, back skin and footpad of nestin-driven green fluorescent protein (ND-GFP) transgenic nude mice, which selectively express GFP in nascent blood vessels. Color-coded in vivo imaging demonstrated that the LLC-RFP ear tumor had the highest cell density and the footpad tumor had the least. The ear tumor had more abundant blood vessels than that on the back or footpad. The tumor-bearing mice were treated with A1-R bacteria via tail-vein injection. Tumors in the ear were the earliest responders to bacterial therapy and hemorrhaged severely the day after A1-R administration. Tumors growing in the back were the second fastest responders to bacterial treatment and appeared necrotic 3 days after A1-R administration. Tumors growing in the footpad had the least vascularity and were the last responders to A1-R. Therefore, tumor vascularity correlated positively with tumor efficacy of A1-R. The present study suggests that bacteria efficacy on tumors involves vessel destruction which depends on the extent of vascularity of the tumor.Key words: tumor targeting bacteria, Salmonella typhimurium A1-R, Lewis lung carcinoma, RFP, GFP, nestin, nude mice     

Efficacy against lung metastasis with a tumor-targeting mutant of Salmonella typhimurium in immunocompetent mice

Salmonella typhimurium double leu-arg auxotrophs have been shown to be highly effective as antitumor agents in nude mouse models of human metastatic cancer. In order to proceed to clinical development of the S. typhimurium double auxotroph, termed A1-R, it is necessary to evaluate antitumor efficacy in immunocompetent mice. In the present study, we have observed the efficacy of A1-R on the Lewis lung (LLC) carcinoma in vitro as well as in C57BL/6 (C57) immunocompetent mice. In vitro, A1-R treatment of LLC began to induce cell death within one hour. Various doses and schedules of A1-R were administered to C57 mice implanted with LLC, including bolus single intravenous injection; medium dose with weekly intravenous administration and metronomic treatment with small intravenous doses twice a week. Bolus treatment was toxic to the immunocompetent host in contrast to nude mice. Lower-dose weekly doses and metronomic doses were well-tolerated by the immunocompetent host. Weekly intravenous injection with 2 × 10⁷ bacteria and twice a week intravenous injection with 10⁷ bacteria significantly inhibited metastasis formation, while bolus injection was toxic. Intrathoracic administration was performed with 10⁸ A1-R bacteria injected into Lewis lung-bearing C57 mice weekly for three weeks. Lung metastasis was significantly inhibited by intrathoracic bacterial administration without toxicity. The results in this report, demonstrating the anti-metastatic efficacy of S. typhimurium A1-R in immunocompetent mice, indicate the clinical potential of bacterial therapy of cancer.Key words: Salmonella typhimurium, amino acid auxotroph, selective tumor targeting, lung, metastasis, RFP, GFP, fluorescence imaging, confocal microscopy     

Specific route mapping visualized with GFP of single‐file streaming contralateral and systemic metastasis of Lewis lung carcinoma cells beginning within hours of orthotopic implantion

In this study, we visualized the origin of Lewis lung carcinoma metastasis after transducing tumor cells with green fluorescent protein (GFP) and transplanting them orthotopically in the middle lobe of the right lung of nude mice. Metastasis was visualized in live tissue at single cell resolution by GFP‐expression as early as 18 h post‐tumor transplant. At this time, single‐file streaming lung carcinoma cells already had invaded inferiorly via a tubular lymphatic structure crossing the lower lobes of the lung to the ipsilateral diaphragmatic surface. By post‐implantation day 2, the ipsilateral lower lobes of the lung were involved with metastatic cells. By post‐implantation day 3, the ipsilateral lower lobes of the lung and the ipsilateral diaphragmatic surface were highly involved with streaming metastatic cells trafficking in single file. By day 4 post‐implantation, cancer cells invaded across the diaphragm to the contralateral diaphragmatic surface. Metastatic cells then invaded superiorly through a lymphatic vessel to involve the contralateral mediastinal lymph nodes. In this model of lung cancer, the origin of metastasis was an inferior invasion from the implanted tumor via a lymphatic duct to the ipsilateral diaphragmatic surface. The cancer cells from this site invaded on the surface of the diaphragm to the contralateral diaphragmatic surface and proceeded superiorly through a lymphatic duct to contralateral lymph nodes. Other organs such as the kidneys and the adrenal glands later became involved with metastasis with the contralateral mediastinal lymph nodes as the source. The use of GFP and the highly metastatic orthotopic lung cancer model allowed the visualization of the origin of metastasis at the single‐cell level and demonstrated the critical role of lymphatic ducts and the diaphragmatic surface as the path to the contralateral side. J. Cell. Biochem. 114: 1738–1743, 2013. © 2013 Wiley Periodicals, Inc.     

Retention and mobility of the mammalian lamin B receptor in the plant nuclear envelope

Background information. In a previous study, we showed that GFP (green fluorescent protein) fused to the N‐terminal 238 amino acids of the mammalian LBR (lamin B receptor) localized to the NE (nuclear envelope) when expressed in the plant Nicotiana tabacum. The protein was located in the NE during interphase and migrated with nuclear membranes during cell division. Targeting and retention of inner NE proteins requires several mechanisms: signals that direct movement through the nuclear pore complex, presence of a transmembrane domain or domains and retention by interaction with nuclear or nuclear‐membrane constituents. Results. Binding mutants of LBR—GFP were produced to investigate the mechanisms for the retention of LBR in the NE. FRAP (fluorescence recovery after photobleaching) analysis of mutant and wild‐type constructs was employed to examine the retention of LBR—GFP in the plant NE. wtLBR—GFP (wild‐type LBR—GFP) was shown to have significantly lower mobility in the NE than the lamin‐binding domain deletion mutant, which showed increased mobility in the NE and was also localized to the endoplasmic reticulum and punctate structures in some cells. Modification of the chromatin‐binding domain resulted in the localization of the protein in nuclear inclusions, in which it was immobile. Conclusions. As expression of truncated LBR—GFP in plant cells results in altered targeting and retention compared with wtLBR—GFP, we conclude that plant cells can recognize the INE (inner NE)‐targeting motif of LBR. The altered mobility of the truncated protein suggests that not only do plant cells recognize this signal, but also have nuclear proteins that interact weakly with LBR.     

Visualization of GFP-expressing tumors and metastasis in vivo

We have developed mouse models of metastatic cancer with genetically fluorescent tumors that can be imaged in fresh tissue, in situ, as well as externally. To achieve this capability, we have transduced the green fluorescent protein (GFP) gene, cloned from the bioluminescent jellyfish Aequorea victoria, into a series of human and rodent cancer cell lines that were selected in vitro to stably express GFP in vivo after transplantation to metastatic rodent models. Techniques were also developed for transduction of tumors by GFP in vivo. With this fluorescent tool, we detected and visualized for the first time tumors and metastasis in fresh viable tissue or in situ in host organs down to the single-cell level. GFP tumors on the colon, prostate, breast, brain, liver, lymph nodes, lung, pancreas, bone, and other organs can also be visualized externally, transcutaneously by quantitative whole-body fluorescence optical imaging. Real-time tumor and metastatic growth and angiogenesis and inhibition by representative drugs can be imaged and quantified for rapid antitumor, antimetastatic, and antiangiogenesis drug screening. The GFP-transfected tumor cells enabled a fundamental advance in the visualization of tumor growth and metastasis in real time in vivo.     

绿色荧光蛋白标记的嗜水气单胞菌在温暖水体的存活及稳定性

用绿色荧光蛋白基因(GFP)标记嗜水气单胞菌4332株(Ah4332GFP),检测其在温暖水体中的存活及稳定性.在灭菌自然塘水中,Ah4332GFP存活47d之久,该菌浓度随时间而变化,呈现两个峰值;在非灭菌自然塘水中,Ah4332GFP存活18d,该菌浓度均随时间延长呈下降趋势.表明Ah4332GFP和天然细菌之间的相互作用影响其稳定性.用M9培养基检测Ah4332GFP质粒的稳定性,结果显示在传代培养40、70代后,质粒稳定率分别保持在473%和205%.可见pGFP是一种相对稳定的质粒,Ah4332GFP可用于微生物生态的研究.       

Rhodobacter sphaeroides,a novel tumor‐targeting bacteria that emits natural near‐infrared fluorescence

Several optical imaging techniques have been used to monitor bacterial tropisms for cancer. Most such techniques require genetic engineering of the bacteria to express optical reporter genes. This study investigated a novel tumor‐targeting strain of bacteria, Rhodobacter sphaeroides 2.4.1 (R. sphaeroides), which naturally emits near‐infrared fluorescence, thereby facilitating the visualization of bacterial tropisms for cancer. To determine the penetration depth of bacterial fluorescence, various numbers of cells (from 10⁸ to 10¹⁰ CFU) of R. sphaeroides and two types of Escherichia coli, which stably express green fluorescent protein (GFP) or red fluorescent protein (RFP), were injected s.c. or i.m. into mice. Bacterial tropism for cancer was determined after i.v. injection of R. sphaeroides (10⁸ CFU) into mice implanted s.c. with eight types of tumors. The intensity of the fluorescence signal in deep tissue (muscle) from R. sphaeroides was much stronger than from E. coli‐expressing GFP or RFP. The near‐infrared fluorescence signal from R. sphaeroides was visualized clearly in all types of human or murine tumors via accumulation of bacteria. Analyses of C‐reactive protein and procalcitonin concentrations and body weights indicated that i.v. injection of R. sphaeroides does not induce serious systemic immune reactions. This study suggests that R. sphaeroides could be used as a tumor‐targeting microorganism for the selective delivery of drugs to tumor tissues without eliciting a systemic immune reaction and for visualizing tumors.     

Molecular type and maximal metastasis diameter influence risk of axillary recurrence in breast cancer patients after positive sentinel lymph node biopsy

BackgroundBreast cancer patients with positive sentinel lymph node biopsy (SLNB) may be spared axillary lymph node dissection (ALND) in favour of irradiation. The aim of the study was to estimate local control probability in the axilla (axLCP).Materials and methodsWe identified 1832 invasive breast cancer patients who had undergone SLNB at our centre. We measured maximal metastasis diameter (SLDmax) in the sentinel lymph nodes and lymph node metastasis volume (VALN) from ALND in 246 patients with one or two positive SLNs. We calculated axLCP after irradiation and systemic treatment for different molecular types.ResultsVALN values are higher for high grade tumours and larger metastases in SLNs (> 5 mm). It is smaller in luminal A tumours. axLCP is high, nearly 100%, in all molecular types in radiation sensitive tumours (SF2 Gy = 0.45), except luminal B. Expected axLCP is relatively low (67%) in luminal B radiation sensitive tumours with no chemotherapy and nearly 100% with chemotherapy.ConclusionVALN values differ among molecular tumour types. They depend on SLNDmax and tumour grade. New prognostic factors are needed for selected luminal B breast cancer patients (i.e. high grade tumours, large metastases in SLNs) after positive SLNB intended to be spared ALND and chemotherapy.     

系统性纵隔淋巴结清扫对非小细胞肺癌患者预后的影响

目的：探讨系统性纵隔淋巴结清扫术对非小细胞肺癌患者预后的影响。方法：选择2007年1月至2009年12月在我院住院的124例非小细胞肺癌患者为研究对象,并将其随机分为对照组和实验组,对照组60例患者采用采样式纵隔淋巴结清扫术（med．itational lymphnodesampling,LS）治疗,实验组64例患者采用系统纵隔淋巴结清扫术（systematic meditational lymphadenectomy,SML）治疗。比较两组患者的淋巴结清除总数、淋巴结转移数、淋巴结转移率,通过寿命表法和Kaplan—Meier法比较两组患者的累积3年生存率及中位生存时间。结果：两组比较淋巴结转移率无统计学差异,而与对照组相比,实验组术后并发症发生率明显下降,差异具有统计学意义（P〈0．05）。对照组和实验组患者的中位生存期、3年生存率分别为20．1和24．2个月、18．75％和43．33％,两组比较差异显著,有统计学意义（P〈0．05）。结论：系统性纵隔淋巴结清扫治疗非小细胞肺癌可显著降低患者的淋巴结转移率,并提高患者的3年生存率,延长患者的寿命。     

Effect of polyethylene glycol on the thermal stability of green fluorescent protein

Green fluorescent protein (GFP) shows remarkable structural stability and high fluorescence; its stability can be directly related to its fluorescence output, among other characteristics. GFP is stable under increasing temperatures, and its thermal denaturation is highly reproducible. Some polymers, such as polyethylene glycol, are often used as modifiers of characteristics of biological macromolecules, to improve the biochemical activity and stability of proteins or drug bioavailability. The aim of this study was to evaluate the thermal stability of GFP in the presence of different PEG molar weights at several concentrations and exposed to constant temperatures, in a range of 70–95°C. Thermal stability was expressed in decimal reduction time. It was observed that the D‐values obtained were almost constant for temperatures of 85, 90, and 95°C, despite the PEG concentration or molar weight studied. Even though PEG can stabilize proteins, only at 75°C, PEG 600 and 4,000 g/mol stabilized GFP. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2010     

Up‐regulation of LIMK1 expression in prostate cancer is correlated with poor pathological features,lymph node metastases and biochemical recurrence

This study aimed to explore the association between LIM domain kinase 1 (LIMK1) expression in prostate cancer (PCa) tissues with advanced pathological features, lymph node metastases and biochemical recurrence. A total of 279 PCa specimens from patients who underwent radical prostatectomy and 50 benign prostatic hyperplasia (BPH) specimens were collected to construct tissue microarray, which were subjected to immunohistochemical staining for LIMK1 expression subsequently. Logistic and Cox regression analysis were used to evaluate the relationship between LIMK1 expression and clinicopathological features of patients with PCa. Immunohistochemical staining assay demonstrated that LIMK1 expression was significantly higher in PCa than BPH specimens (77.1% vs 26.0%; P < .001). LIMK1 expression was significantly higher in positive lymph node specimens than corresponding PCa specimens (P = .002; P < .001). Up‐regulation of LIMK1 was associated with prostate volume, prostate‐specific antigen, prostate‐specific antigen density, Gleason score, T stage, lymph node metastases, extracapsular extension and seminal vesicle invasion, and positive surgical margin. Multivariate logistic regression analysis demonstrated that LIMK1 was an independent risk factor for PCa lymph node metastasis (P < .05). Multivariate Cox regression analysis revealed that the up‐regulation of LIMK1 was an independent risk factor for biochemical recurrence. Kaplan‐Meier analysis indicated that up‐regulation LIMK1 was associated with shortened biochemical‐free survival (BFS) after radical prostatectomy (P < .001). In conclusion, LIMK1 was significantly up‐regulated in PCa and positive lymph node specimens and correlated with lymph node metastasis and shortened BFS of PCa. The underlying molecular mechanism of LIMK1 in PCa should be further evaluated.     

Simultaneous color‐coded imaging to distinguish cancer “stem‐like” and non‐stem cells in the same tumor

In this study, we demonstrate that the differential behavior, including malignancy and chemosensitivity, of cancer stem‐like and non‐stem cells can be simultaneously distinguished in the same tumor in real time by color‐coded imaging. CD133⁺ Huh‐7 human hepatocellular carcinoma (HCC) cells were considered as cancer stem‐like cells (CSCs), and CD133^? Huh‐7 cells were considered as non‐stem cancer cells (NSCCs). CD133⁺ cells were isolated by magnetic bead sorting after Huh‐7 cells were genetically labeled with green fluorescent protein (GFP) or red fluorescent protein (RFP). In this scheme, CD133⁺ cells were labeled with GFP and CD133^? cells were labeled with RFP. CSCs had higher proliferative potential compared to NSCCs in vitro. The same number of GFP CSCs and the RFP NSCCs were mixed and injected subcutaneously or in the spleen of nude mice. CSCs were highly tumorigenic and metastatic as well as highly resistant to chemotherapy in vivo compared to NSCCs. The ability to specifically distinguish stem‐like cancer cells in vivo in real time provides a visual target for prevention of metastasis and drug resistance. J. Cell. Biochem. 111: 1035–1041, 2010. © 2010 Wiley‐Liss, Inc.     

Pou4f2‐GFP knock‐in mouse line: A model for studying retinal ganglion cell development

Pou4f2 acts as a key node in the comprehensive and step‐wise gene regulatory network (GRN) and regulates the development of retinal ganglion cells (RGCs). Accordingly, deletion of Pou4f2 results in RGC axon defects and apoptosis. To investigate the GRN involved in RGC regeneration, we generated a mouse line with a POU4F2‐green fluorescent protein (GFP) fusion protein expressed in RGCs. Co‐localization of POU4F2 and GFP in the retina and brain of Pou4f2‐GFP/+ heterozygote mice was confirmed using immunofluorescence analysis. Compared with those in wild‐type mice, the expression patterns of POU4F2 and POU4F1 and the co‐expression patterns of ISL1 and POU4F2 were unaffected in Pou4f2‐GFP/GFP homozygote mice. Moreover, the quantification of RGCs showed no significant difference between Pou4f2‐GFP/GFP homozygote and wild‐type mice. These results demonstrated that the development of RGCs in Pou4f2‐GFP/GFP homozygote mice was the same as in wild‐type mice. Thus, the present Pou4f2‐GFP knock‐in mouse line is a useful tool for further studies on the differentiation and regeneration of RGCs.