Science - 06.12.2019

communicate with their neighbors and reshape
their niche ( 34 ).
Our study identifies lymphatic capillaries as
dynamic SC-niche elements that integrate SC
niches and synchronize SC behavior across the
hair coat. We have learned that, to mobilize
HFSCs for either normal regenerative demands
or those induced by injury, these SCs un-
dergo a secretome switch that triggers tran-
sient dissociation of lymphatics from the niche
(Fig. 6F).
Althoughthepossiblewaysbywhichlym-
phatics control HFSCs are numerous, and the
communication circuits are likely complex, our
genetic manipulations of the lymphatic–SC
niche connection underscore its functional im-
portance in balancing SC self-renewal and

quiescence. Indeed, as soon as bulge SCs launch

production of their committed proliferative

progeny and self-renew, the lymphatic capil-

laries resume connections with their SC neigh-

bors, and niche quiescence is restored. The

process is a two-way street, because the dy-

namic remodeling of lymphatic capillaries is

orchestrated by bulge SCs, whereas the lym-

phatics govern SC behavior.

Drainage of tissue interstitial fluids and

macromolecules has been a subject of interest

for decades. We have unearthed a need to bal-

ance cutaneous influx of fluids and macro-

molecules in controlling SC behavior. Future

studies will be needed to dissect the impact

of interstitial fluid composition, extracellular

macromolecule dynamics, and immune cell

efflux on stem cell biology. Additionally, short

remodeling duration suggests that lymphatic

dissociation from the SC niche may be del-

eterious, perhaps rendering SCs transiently

vulnerable to toxins or increased fluid pressure.

Our discovery that lymphatics localize to

both mouse and human HFSC niches suggests

that the need to establish such connections

is not only physiologically important but also

evolutionarily conserved, raising the possibil-

ity that lymphatic capillaries may participate

in other SC niches to meet their specialized

regenerative demands. With our newfound

understanding of skin SC–lymphatic inter-

actions, it now merits addressing whether the

stem cell exhaustion that accompanies wound-

healing defects and hair loss in aging and in

Gur-Cohenet al.,Science 366 , 1218–1225 (2019) 6 December 2019 7of8

50 μm50 um

Scr-1

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trl

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Follicle length (

μm)

p = 0.0118

p = 0.0006

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P-CAD SOX9 DAPI

A

shAngptl7-250 μm

Hair asynchrony under shAngptl7

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shAngptl7

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Lymphatic capillaries width (

μm) p < 0.0001

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Lymphatic volume (x10

6 μm

3 )

p = 0.0113

Telog

en

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en

Ana II

An

a II-III

Ana II

Ana

IV

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0

5

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15

Ki67

+ HFSCs (per follicle)

p = 0.0016

Flt4

+ WT

Flt4

Chy/Flt4

+

0

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Follicle

length (μm

)

p < 0.0001

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+ WT

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+

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Flt4+ Ctrl^ Flt4Chy/Flt4+

Second telogen

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LYVE1 P-CAD H2BRFP DAPI

Scr Ctrl shAngptl7-1

LYVE1 RFP DAPI

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50 μm

50 μm

B

D

F

Lymphatic capillaries remode-

ling, and reduced lymphatic

drainage

Activated HFSC-driven

signals reshape their

lymphatic niche, allowing

regeneration

SC self-ren

ew

al/

proli

feration

Promotes lymphatic

fitness, enhances

lymphatic efflux

HFSC-driven signals

promote lymphatic fitness

and maintain SC

quiescence

SC quiescence

50 μm

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shAngptl7

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Dilated lymphatic capillaries and reduced drainage

P-CAD H2B-RFP DAPI

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shAngptl7-1

shAngptl7-1

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VEGFR3 dominant negative

LYVE1 KRT24 P-CAD DAPI

C

E

HF hyperplasia

HF

L-Cap

Bulge

HG

DP Vein

Artery

Lymphatic

Capillary

Blood

Capillary

ANGPTL7 NTN4 ; ANGPTL4

Fig. 6. Secretome switch integrates lymphatic–SC niches across the
tissue.(A)shAngptl7knockdown results in HF asynchrony by P19 (n= 4 per
condition per shRNA, one-way ANOVA with Dunnett’s multiple comparisons test).
(B)shAngptl7in HFSCs causes lymphatic capillary dilation (n≥3 per shRNA,
two-tailed unpairedttest). Quantifications of lymphatic drainage capacity are
shown at right, as measured by Evans blue efflux (n≥4 per shRNA per

measurement, two-tailed unpairedttest). (C) HF hyperplasia afterAngptl7

knockdown and (D) hyperplastic HF association with the most highly dilated

lymphatic capillaries. (E) Expressing a dominant-negative VEGFR3,Flt4Chy/Flt4+

mice exhibit hair-cycling asynchrony and increased proliferation at P65,

when control HFs are in second telogen (n= 3, two-tailed unpairedttest).

(F) Model of the HFSC secretome switch.

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