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A new tissue-specific FLCN-deficient mouse model of renal tumourigenesis - ScienceBlog.com (blog)

Animal models can be useful for understanding disease pathology and as preclinical models for drug testing. As BHD patients develop renal cell carcinomas (RCCs) of varied histologies, associated with a loss of FLCN, BHD animal models could be used to study of a wide range of renal cancer subtypes. Current BHD mouse models include kidney-specific Flcn-knockouts (Chen et al., 2008, Baba et al., 2008) and ubiquitous knockouts (Hasumi et al., 2009, Hartman et al., 2009, Hudon et al., 2010). The former develop polycystic kidneys and die within three weeks, the latter can only be studied as heterozygotes with tumourigenesis dependent on a “second hit” resulting in variable penetrance and making them less suitable for drug studies.

A new mouse model from Chen et al., (2015) uses the proximal tubule-specific promoter, Sglt2, with Cre-Lox recombination (Sauer & Henderson, 1988) to knockout Flcn. Western blot confirmed the loss of Flcn in homozygous knockout (Flcnflox/flox/Sglt2-Cre) mouse proximal tubules with sustained expression in other renal tissues. These mice show bilateral renal cyst and tumour formation within the first year. Survival is impaired compared to the heterozygous knockout (Flcnflxo/+/Sglt2-Cre) or wildtype mice (<24 months vs >24 months) but is significantly longer than other kidney-specific Flcn knockout mice (<21 days; Chen et al., 2008, Baba et al., 2008).

Renal cysts developed in all homozygous knockout mice (n=100) – in over 50% within the first month – but were rarely seen in heterozygous knockout (n=5/33) or wildtype (n=1/38) mice. Immunohistochemistry confirmed that the cysts had developed from proximal tubule cells and were Flcn-deficient. Where complete Flcn knockout was not achieved, mainly in younger mice, there was no evidence of cyst formation (Chen et al., 2015).

The majority of homozygous knockout mice developed RCC (n=41/54). Lower grade chromophobe RCC, oncocytomas and hybrid RCCs (most often seen in BHD patients) were more frequently identified in younger mice with increased prevalence of higher grade papillary RCC and clear cell RCC in aging mice. Whether high grade tumours are the result of lower grade tumour transformation over time is an area that requires further investigation. Only two heterozygous knockout mice developed renal tumours (at 27 and 29 months), a lower tumourigenic frequency than the ubiquitous heterozygous Flcn knockout models (Hasumi et al., 2009).

Tumours from homozygous knockout mice were negative for Flcn and showed increased levels of AKT, mTOR, MMP and TGF? signalling compared to healthy tissue. Activation of the mTOR pathway has previously been reported as a feature of BHD-mouse RCC development (Chen et al., 2008, Baba et al., 2008). However, a loss of Flcn has previously been linked to reduced TGF? signalling in human UOK-257 cells (Hong et al., 2010) and mouse embryonic stem cells (Cash et al., 2011); this discrepancy could represent a species-specific role for TGF? in mouse renal tumourigenesis or be the result of tissue-specific functions.

Chen et al., confirmed the applicability of their mice to drug testing by treating mice with rapamycin for ten months (started at two months old). Comparison of drug and sham treated mice showed a vast reduction in cyst and tumour development; the kidneys of treated mice did contain cysts but the authors suggest that these developed before treatment began. Based on this they claim “rapamycin effectively inhibited the development of new cysts and tumours”, but was unable to reverse pre-existing damage. However, as the number of cysts was only assessed at one time point it is possible that cysts continued to develop but treatment with rapamycin resulted in markedly slower growth and restricted transformation into tumours.

This new Flcnflox/flox/Sglt2-Cre knockout BHD-RCC model clearly represents the developmental stages of human renal tumour progression: cyst development (months 1-4), hyperplasia (month 5), microtumours (from 6 months) and large tumours (from 12 months).The high and constant penetrance afforded by highly-tissue specific homozygous knockout coupled with early onset and longer lifespan compared to other kidney specific Flcn-knockout mice make them a powerful tool for understanding tumourigenesis and for preclinical testing.

  • Baba M, Furihata M, Hong SB, Tessarollo L, Haines DC, Southon E, Patel V, Igarashi P, Alvord WG, Leighty R, Yao M, Bernardo M, Ileva L, Choyke P, Warren MB, Zbar B, Linehan WM, Schmidt LS. Kidney-targeted Birt-Hogg-Dube gene inactivation in a mouse model: Erk1/2 and Akt-mTOR activation, cell hyperproliferation, and polycystic kidneys. J Natl Cancer Inst. 2008 Jan 16;100(2):140-54. PubMed PMID: 18182616.
  • Cash TP, Gruber JJ, Hartman TR, Henske EP, Simon MC. Loss of the Birt-Hogg-Dubé tumor suppressor results in apoptotic resistance due to aberrant TGF?-mediated transcription. Oncogene. 2011 Jun 2;30(22):2534-46. PubMed PMID: 21258407.
  • Chen J, Futami K, Petillo D, Peng J, Wang P, Knol J, Li Y, Khoo SK, Huang D, Qian CN, Zhao P, Dykema K, Zhang R, Cao B, Yang XJ, Furge K, Williams BO, Teh BT. Deficiency of FLCN in mouse kidney led to development of polycystic kidneys and renal neoplasia. PLoS One. 2008;3(11) PubMed PMID: 18974783.
  • Chen J, Huang D, Rubera I, Futami K, Wang P, Zickert P, Khoo SK, Dykema K, Zhao P, Petillo D, Cao B, Zhang Z, Si S, Schoen SR, Yang XJ, Zhou M, Xiao GQ, Wu G, Nordenskjöld M, Tauc M, Williams BO, Furge KA, Teh BT. Disruption of tubular Flcn expression as a mouse model for renal tumor induction. Kidney Int. 2015 Jun [Epub ahead of print] PubMed PMID: 26083655.
  • Hartman TR, Nicolas E, Klein-Szanto A, Al-Saleem T, Cash TP, Simon MC, Henske EP. The role of the Birt-Hogg-Dubé protein in mTOR activation and renal tumorigenesis. Oncogene. 2009 Apr 2;28(13):1594-604. PubMed PMID: 19234517.
  • Hasumi Y, Baba M, Ajima R, Hasumi H, Valera VA, Klein ME, Haines DC, Merino MJ, Hong SB, Yamaguchi TP, Schmidt LS, Linehan WM. Homozygous loss of BHD causes early embryonic lethality and kidney tumor development with activation of mTORC1 and mTORC2. Proc Natl Acad Sci U S A. 2009 Nov 3;106(44):18722-7. PubMed PMID: 19850877.
  • Hong SB, Oh H, Valera VA, Stull J, Ngo DT, Baba M, Merino MJ, Linehan WM, Schmidt LS. Tumor suppressor FLCN inhibits tumorigenesis of a FLCN-null renal cancer cell line and regulates expression of key molecules in TGF-beta signaling. Mol Cancer. 2010 Jun 23;9:160. PubMed PMID: 20573232.
  • Hudon V, Sabourin S, Dydensborg AB, Kottis V, Ghazi A, Paquet M, Crosby K, Pomerleau V, Uetani N, Pause A. Renal tumour suppressor function of the Birt-Hogg-Dubé syndrome gene product folliculin. J Med Genet. 2010 Mar;47(3):182-9. PubMed PMID: 19843504.
  • Sauer B, Henderson N. Site-specific DNA recombination in mammalian cells by the Cre recombinase of bacteriophage P1. Proc Natl Acad Sci U S A. 1988 Jul;85(14):5166-70. PubMed PMID: 2839833.

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Lakeland Woman Has Faith as Ride to Dialysis Is Cut - The Ledger
The Ledger
She goes to dialysis Tuesdays, Thursdays and Saturdays. She also relies on the bus for trips to the grocery store and her other doctor's appointments. "I don't think it's right," she said. "For people like me that don't have transportation and are on a

...

 
Passage of bill granting free dialysis to poor pushed in Senate - Inquirer.net
Senator Sonny Angara. INQUIRER FILE PHOTO

Senator Sonny Angara. INQUIRER FILE PHOTO

Amid rising cases of kidney disease in the country, Senator Sonny Angara has sought the passage of a measure that seeks to provide free dialysis treatment to indigent patients.

“Patients from the provinces, who are suffering from kidney disorder, have to travel all the way to urban cities just to avail themselves of dialysis treatment, which is needed on a regular and sustained basis. Some patients even die without a chance to undergo dialysis because they simply could not afford it,” Angara said in a statement on Friday.

READ: Sad plight of patients with kidney failure

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Angara then filed Senate Bill No. 2849 or the Dialysis Center Act, which requires all national, regional and provincial government hospitals “to establish, operate and maintain a dialysis ward or unit to ensure that dialysis treatment will be available, accessible and cost-effective especially those living in the rural areas.”

The bill also mandates that dialysis treatment should be provided free of charge to indigent patients, whose combined annual family income does not exceed P30,000.

“In line with the government’s efforts to reform the health sector and provide Filipinos with comprehensive health services, local government units must be tapped to make healthcare services more affordable and accessible,” Angara said.

In filing the bill, the senator cited data from the Philippine Network for Organ Sharing under the Department of Health (DOH) which shows that close to 23,000 patients underwent dialysis treatment due to kidney failure in 2013, a huge jump from the 4,000 cases recorded in 2004.

This figure, the DOH noted, does not include those suffering from kidney failure—now the country’s 7th leading cause of death—but who are not able to undergo dialysis treatment due to its high cost and inaccessibility especially in the rural areas.

Angara also welcomed the Philippine Health Insurance Corporation’s (PhilHealth) recent expansion of hemodialysis coverage from 45 to 90 sessions per year in a bid to lessen the financial burden of its members due to the rising incidence of kidney diseases in the country.

READ: PhilHealth expands dialysis coverage

“I laud this move by the PhilHealth in response to the growing clamor from stakeholders to increase the coverage for dialysis. I urge my colleagues to support the passage of this bill to make health services more accessible and affordable to our countrymen,” he added. IDL

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Passage of bill granting free dialysis to poor pushed in Senate | Inquirer News - Inquirer.net
Senator Sonny Angara. INQUIRER FILE PHOTO

Senator Sonny Angara. INQUIRER FILE PHOTO

Amid rising cases of kidney disease in the country, Senator Sonny Angara has sought the passage of a measure that seeks to provide free dialysis treatment to indigent patients.

“Patients from the provinces, who are suffering from kidney disorder, have to travel all the way to urban cities just to avail themselves of dialysis treatment, which is needed on a regular and sustained basis. Some patients even die without a chance to undergo dialysis because they simply could not afford it,” Angara said in a statement on Friday.

READ: Sad plight of patients with kidney failure

ADVERTISEMENT

Angara then filed Senate Bill No. 2849 or the Dialysis Center Act, which requires all national, regional and provincial government hospitals “to establish, operate and maintain a dialysis ward or unit to ensure that dialysis treatment will be available, accessible and cost-effective especially those living in the rural areas.”

The bill also mandates that dialysis treatment should be provided free of charge to indigent patients, whose combined annual family income does not exceed P30,000.

“In line with the government’s efforts to reform the health sector and provide Filipinos with comprehensive health services, local government units must be tapped to make healthcare services more affordable and accessible,” Angara said.

In filing the bill, the senator cited data from the Philippine Network for Organ Sharing under the Department of Health (DOH) which shows that close to 23,000 patients underwent dialysis treatment due to kidney failure in 2013, a huge jump from the 4,000 cases recorded in 2004.

This figure, the DOH noted, does not include those suffering from kidney failure—now the country’s 7th leading cause of death—but who are not able to undergo dialysis treatment due to its high cost and inaccessibility especially in the rural areas.

Angara also welcomed the Philippine Health Insurance Corporation’s (PhilHealth) recent expansion of hemodialysis coverage from 45 to 90 sessions per year in a bid to lessen the financial burden of its members due to the rising incidence of kidney diseases in the country.

READ: PhilHealth expands dialysis coverage

“I laud this move by the PhilHealth in response to the growing clamor from stakeholders to increase the coverage for dialysis. I urge my colleagues to support the passage of this bill to make health services more accessible and affordable to our countrymen,” he added. IDL

...

 
Predicting renal parenchymal loss following nephron sparing surgery - Abstract - UroToday
image

PURPOSE: We analyze the relationship among various patient, operative and tumor characteristics to determine which factors correlate with renal parenchymal volume loss after nephron sparing surgery using a novel 3-dimensional volume assessment.

MATERIALS AND METHODS: We conducted a retrospective review of an institutional database of patients who underwent nephron sparing surgery from 1992 to 2014 for a localized renal mass. Tumors were classified according to the R.E.N.A.L. nephrometry system. Using 3-dimensional reconstruction imaging software, preoperative and postoperative renal parenchymal volume was calculated for the ipsilateral and contralateral kidney.

RESULTS: A total of 158 patients were analyzed. Mean patient age was 58.7 years and mean followup was 40.1 months. Mean preoperative tumor volume was 34.0 cc and mean tumor dimension was 3.4 cm. Mean R.E.N.A.L. nephrometry score was 6.2, with 60.1%, 34.2% and 5.7% of tumors classified as low, medium and high complexity, respectively. Mean change in renal parenchymal volume after nephron sparing surgery was -15.3% for the ipsilateral kidney and -6.8% for total kidney volume. On univariate analysis ischemia time, tumor size, R.E.N.A.L. nephrometry score, complexity grouping, and the individual nephrometry components of tumor size, percent exophytic, anterior/posterior, depth and tumor proximity to the renal artery or vein were associated with greater renal parenchymal volume loss. On multivariate analysis only ischemia time, tumor size, posterior location and percent exophytic were independently associated with more renal parenchymal volume loss.

CONCLUSIONS: Using precise 3-dimensional volumetric analysis we found that ischemia time, tumor size and endophytic/exophytic properties of a localized renal mass are the most important determinants of renal parenchymal volume loss.

Written by:
Meyer A, Woldu SL, Weinberg AC, Thoreson GR, Pierorazio P, Matulay JT, Benson MC, DeCastro GJ, McKiernan JM.   Are you the author?
Columbia University Medical Center, New York, New York; University of Texas Southwestern Medical Center, Dallas, Texas; Johns Hopkins Medicine, Baltimore, Maryland.  This email address is being protected from spambots. You need JavaScript enabled to view it.

Reference: J Urol. 2015 Mar 25. pii: S0022-5347(15)03460-6.
doi: 10.1016/j.juro.2015.03.098


PubMed Abstract
PMID: 25818030

UroToday.com Renal Cancer Section

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