BACKGROUND: Lymphoedema represents the cardinal manifestation of lymphatic dysfunction and is associated with expansion of the adipose tissue in the affected limb. In mice, high-fat diet (HFD)-induced obesity was associated with impaired collecting lymphatic vessel function, and adiposity aggravated surgery-induced lymphoedema in a mouse model. The aim of the current study was to investigate whether adiposity is necessary to impair lymphatic function or whether increased lipid exposure alone might be sufficient in a surgical lymphoedema model. METHODS: To investigate the role of increased lipid exposure in lymphoedema development we used a well-established mouse tail lymphoedema model. Female mice were subjected to a short-term (6 weeks) HFD, without development of obesity, before surgical induction of lymphedema. Lymphoedema was followed over a period of 6 weeks measuring oedema, evaluating tissue histology and lymphatic vascular function. RESULTS: HFD increased baseline angiogenesis and average lymphatic vessel size in comparison to the chow control group. Upon induction of lymphedema, HFD-treated mice did not exhibit aggravated oedema and no morphological differences were observed in the blood and lymphatic vasculature. Importantly, the levels of fibro-adipose tissue deposition were comparable between the 2 groups and lymphatic vessel function was not impaired as a result of the HFD. Although the net immune cell infiltration was comparable, the HFD group displayed an increased infiltration of macrophages, which exhibited an M2 polarization phenotype. CONCLUSIONS: These results indicate that increased adiposity rather than dietary influences determines predisposition to or severity of lymphedema.
BACKGROUND: Lymphoedema represents the cardinal manifestation of lymphatic dysfunction and is associated with expansion of the adipose tissue in the affected limb. In mice, high-fat diet (HFD)-induced obesity was associated with impaired collecting lymphatic vessel function, and adiposity aggravated surgery-induced lymphoedema in a mouse model. The aim of the current study was to investigate whether adiposity is necessary to impair lymphatic function or whether increased lipid exposure alone might be sufficient in a surgical lymphoedema model. METHODS: To investigate the role of increased lipid exposure in lymphoedema development we used a well-established mouse tail lymphoedema model. Female mice were subjected to a short-term (6 weeks) HFD, without development of obesity, before surgical induction of lymphedema. Lymphoedema was followed over a period of 6 weeks measuring oedema, evaluating tissue histology and lymphatic vascular function. RESULTS: HFD increased baseline angiogenesis and average lymphatic vessel size in comparison to the chow control group. Upon induction of lymphedema, HFD-treated mice did not exhibit aggravated oedema and no morphological differences were observed in the blood and lymphatic vasculature. Importantly, the levels of fibro-adipose tissue deposition were comparable between the 2 groups and lymphatic vessel function was not impaired as a result of the HFD. Although the net immune cell infiltration was comparable, the HFD group displayed an increased infiltration of macrophages, which exhibited an M2 polarization phenotype. CONCLUSIONS: These results indicate that increased adiposity rather than dietary influences determines predisposition to or severity of lymphedema.
Authors: Adri Chakraborty; Sheridan Barajas; Gabriela M Lammoglia; Andrea J Reyna; Thomas S Morley; Joshua A Johnson; Philipp E Scherer; Joseph M Rutkowski Journal: Am J Pathol Date: 2019-03-13 Impact factor: 4.307
Authors: Bailey H Duhon; Thien T Phan; Shannon L Taylor; Rachelle L Crescenzi; Joseph M Rutkowski Journal: Int J Mol Sci Date: 2022-06-14 Impact factor: 6.208
Authors: Jorge A Castorena-Gonzalez; Scott D Zawieja; Min Li; R Sathish Srinivasan; Alexander M Simon; Cor de Wit; Roger de la Torre; Luis A Martinez-Lemus; Grant W Hennig; Michael J Davis Journal: Circ Res Date: 2018-09-28 Impact factor: 17.367