- Email: [email protected]
T-lymphocytes recognise Leishmania glycoconjugates
P;lraato/ogy 7odq voi 1,no 2. i 985
61
T-lymphocytes recognise Leishmania glycocon jugates G.F. Mitchell and E. Handman J-lymphocytes can have erther resistance-
glycocon+rgate (L-GC).
promotrng or &ease-promoting
lrprd and orrented
effects ,n
murrne cutaneous letshmanr~s~s.Recently we
that
showed
o /rp&contor?lng
giycocoqu-
MHC
molecules
rophages,
when anchored by
In relation on
We
to class I/
infected
mat-
also propose
sron of T,,
cells by consumrng lnterleukrn-
2 (IL-2). These ‘suppressor’ T-cells have a
IS both an Inducer and a target
of
promastigotes to mocrophages. wrll vaccinate mice against disease. in contrast,
T-cells. These cells lack the Ly2 surface antigen and can actrvate macrophages;
trons from
the
they must be present at hrgh frequency
mrce”’ ‘j. These
water-so/jib/e
carbohpdrale
fragment
certain
class
It
normal
[or suppress/on ofhost
T-cells can efficrently restore
resrsfanre We prop-
ose that two types ofi-cells suface
anflgen,
eff+cts in cutaneous drferent
lackrng the Ly2
and with fwo very d@rent iefshmanrasfs, recognize
carbohydrate
epr[o’>es on the same
i
<.T,,, are
readily
molecule IS orrentated
presented to the rmmtlne system
the ltprd component rophage
Isolates of the p-otozoan
para-
nude
membrane
leased from T,,
when
The
suppressor
carbohydrate
process,
infected mac-
anchored
Into the promastrgote
molecule
mernbrane by covalently bound llprd and IS the r-ecognltron molecule for macro-
rem
cells which activates the
phagesl’
Further-
the glycocon+rgate
promoting
sponses and the generation
Irpldated glycoconlugate
may be y-Interferon,
actrng
of parasrto-
Tcells
Such mace show striking varratrons In sus
crdal oxygen IntermedIates In Infected mat-
receptors
ceptrbrl~ty. In BALE&
rophages’.
which are recruited
strains (H-2
mrre
and
other
congenrc strarns), expanding
If the expression
of class II MHC
or avatlabrlrty
chronrcally
rnjectron
genetrcally susceptrble BALBIc mrcel.1, then
sequent
of
vrscerallzatlon
death Other are
promastrgotes.
with
of infectron,
suband
mouse strarns. such as CBA/H.
hrghly resrstant to
small cutaneous
disease
Infected
the efficiency of MHC-restrIcted sron of T,,
uninfected
de-
on the
macrophages,
Into the lesion by l--
rty reactrons ’ The
expres-
Ly2_ rewance-promoring
L-GC
at the surface of promasr-
gotes, and perhaps
at the Infected
mat-
rophage surface, IS susceptrble to cleavage
Ly2- disease-promoung
Tna cell at high frequency.
completely’
spec,fic,ry for recognltlon-
I, characterrstcs
with
(IXGC)
and any
lessons or swellings that
host
of
cells IS r-educed I’) I’.
appear at the tlllectron sate heal rapidly and Two
macrophages
can occur
cells which mediate delayed hypersensltrv-
molecules IS drmrnshed on
cutaneous lessons develop after cutaneous
of
IS
surface
rnductron of disease-
macrophages,
can infect mace of vartous Inbred strarns.
In this at-
tachment
at close range and leading to oxrdatrve re-
lershmanrasrs,
of
of
trc (Old
cutaneous
determinants
mastrgotes to gain access to mat rophages
sate, Lershmanro major, the cause of zoonoWorld)
BAL&
T-cells also
through facrlltated phagocytosr9
the
by IncorporatIon
Intothe
rn cell pop&
Infected
and bound to a macr-ophage receptor [Frg I ) This treceptor IS used by L. map pro-
portton of the L-GC avarlable
molecule depending on how thusn-to/ecu/e IS
Human
recogntse
chronrcally
the glycoconJugate, tn this case de-llpldated
cells recognize determinants
on the carbohydrate that
rn
resrstance to
In hypothymrc
In normal lymphold organs
but are at a high frequency
lymphord organs because normal
mc?ot rnfectlon
mlceg
low frequency
MHC-restricted
denved from thn glycoirprd w~/lsensltrze mice
drsease-
T-cells” lo Id I0 tnhrbrt expan-
gate, involved in
that Ly2-
promoting
affect
course of rnfec?ton: T-cell-dependent
the
T
cell at low frequency. _
spec,fic,ty for backbone
ste ep\topes of
epnopes of glycocon)ugare EZ
glycocon~ugate
(htgh clonal exparwon
rm-
MO
A--\
IL-2 connumlng potentlall
mune responses, and the ‘permrssrveness’ of host macrophages3.
As expected,
the
characterrstrcs Iof the parasrte also Influence the outcome
elf rnfectlon”m’, and there are
cloned lines of i. major which do not produce
lessons In genetically
susceptjble
mice> a. Although sial, the
several Issues are controver-
cellular
cutaneous
rmmunolcgy
lelshmanrasrs
clearer. There lymphocytes
of murlne becomrng
IS
IS no doubt
that certain T-
orientedby
pr-omote both the perpetua-
Macmphage
lipid.
tion and the resolutron ofdrsease9 ‘0. In this artrcle, we argue that an amphrpathrc, Irprdcontarnrng glycoconfugate the de-lrprdated,
of L. ma/or. and
water-soluble
glycocon-
fugate derrved from It by enzymatic cleavagel’ 12, have cutaneous
a central
role
lershmanrasls. We
each stimulates a drfferent
In murrne belreve that
subset of T-
Fig. I _Pi oposed scheme of events resuhng inInductronand exprcssron of resistance-pr-ornot~ngand disease-promoting rmmune responses in murlnc cutaneous lershmanlasfsE r-eprcsents class II MHC-rrestrrcted rnacrophage actuation It close range. which may be rttlated by y-interferon. II MHC
Ei represents
(I rqon)
restricted
macrophage in both
~nh~b~t~onthroqh
IL-2
consumpt:on
lnducnon
1s class
casts
cells, one responsrble for the Inductron and expression and the promotrng We For
of host-protec:rve other
responsrble
rmmunrty for
drsease-
immunrty
propose
Abbreviations thymus-der excreted
I, InductIon lved cell, MHC.
E.
expression,
malor
i,,,
cell,
macrophage-actlvdtlng
h~stocompat~b~l~ty complex
[H-Z).
l-cell,
T-cell,
11-2, ~nterlcuk~n-2.
EF,
factor
that the Irprd-contarnrng
technical reasons we
are unable
toreproduce this figure in colour in this edition -
see the August
issue
of ParasitologyToday for full dour
illustration
62
Pswtoiogy
by an enzyme wrth a phospholrpase CIIIllke activrty In L. ma/or’ ‘,‘2. The carbohydrate-nch DL-GC, together with any LGC In promastlgote culture supernatants are what have been termed ‘excreted factor’ (EF)22*3. These molecules form the basrs of’s serotyprng system In Lelshmonia spp. first described by Schnur et 0f.2~.Parasites with high enzyme actrvrty WIII cleave L-GC raprdly and, as killed organisms, ~111 vaconate less effectrvely than parasrtes with low enzyme actlvlty2s. EF has Inhrbltory effects on responses of Immune human blood lymphocytes to crude promastlgote antrgens, responses that surprisrngly can be ascnbed entirely to periodate-sensltlve determlnantslb. As dlscussed prevlously2. the range of specrficltles that disease-promoting T-cells may have In this system IStotally unknown. We have emphasrsed rn thrs hypothesis a population of Ly2-- T-cells at low frequency In normal uninfected mice that has specrficrty for carbohydrate backbone eprtopes of DL-GC. We propose that these T-cells expand rapidly and are potent IL-2 consumers. This IS speculatrve, but could explarn the activity of Ly2Y cells that lnhrblt clonal expansron of T,, cells which lack Ly2 markers2. If this notlon IS valid then It may be that any T-cell populatlon with high IL-2 consuming potential and which IS specific for any antigen determrn ant, may have disease-promoting potentral. The speculation could further suggest that Ly2- T-cells at low lnrtlal frequency In normal lymphold organs, as dlstlnct from those at high frequency that have already been clonally expanded through Internal lmmunoregulatory clrcurts will have many IL-2 receptors. That IS,there IS an Inverse correlation
between
the srze of a ‘resting’
T-cell clone and the numbers ceptors
high frequency, further
of IL-2 re-
on each cell. TMA cells already at yet requrred to proliferate
In order
rophage
to mediate efficient mac-
actlvatron
(at
mice). are dependent
least
In BALB’c
on high IL-2 levels
number the
of MHC
surface
molecules IS reduced on
of Infected
BALBic mlcei4. This presumably applres to fected, macrophages and, In terms of Ly2T-cell recognrtion. to class II MHC molecules. molecules IS nude mace Infected with low numbers of normal cells where the actlvltres of the T,, cellsare unln terrupted by disease-promoting T-cells The latter are present In very low numbers In mlnlmally reconstituted nude mace. Thus effect of parasl%atlon In BALE’c mice becomes increasingly Important as the efficlency of T,, cell inductron and expansion IS
BALlVc
and other
ible mice might be responders the
macrophage
whereas
on
most other
are genetically
receptor mouse
(Fig.
I)
strains that
resistant. such as CBA/H.
are nonresponders.
lmmunrzatlon
with a
view to ellcrtrng ant/body to DL-GC
(or to
basis of
In CBA/H.
non-responsiveness
may hinge on the per-
mrssrveness of macrophages’
mice and close relatives compared mace such as CBM,
C3HHe
WI&
and C57BL/6?
I+, the para-
macrophages
medrators30”. ferent
to
patterns In the Inheritance
of resis-
tance In F, hybrrds of BALBic and various resistant parental stralns’3. Analysis of the I-GC GC
and derived
DL-
has been facrlltated by the avallablllty
of two monoclonal
dntrbodres (Mabs) di-
One
determinants
techniques
Mab, WIC79.3 We
and
using Mabs’ I.
has been used exhave
found
that
Fab
the lnfectrvrty of promastlgotesa4.
radrormmunoassays
to demonstrate
In the sera of vaccinated, ceptrble
the
of antrglycoconfugate antrbodre; mice
that are
easej5 36. AntIbodIes
genetically susresIstant
to drs-
are not detectable
sera frorn chronIcally Infected
In
mace. The
Any explanatron must take account of the
hrgh levels of antrbody nated
BAL’Bc nude mace promote
actrvrty to L-GC with some helper actlvlty
mrnrmally reconstituted
BALB’c nude’), and
the protective of normal
BALBic mice
or EF WI/I reduce
effects of small numbers
BALFYc cells In nude mace. To
date, thrs IS the only evidence that dlseasepromoting
T-cells in this system may In-
clude cells with speclficlty for DL-GC are
directed
to
carbohydrate
whrch doffer from I-GC tion to the Immune must be protected
in therr presenta-
from enzymatic degr-a-
1%vacclnatlng
that IS protective
L-GC
that
eprtopes
system. Thus, L-GC
datlon In order to preserve
in the
in vaccl-
nated mice IS still IndIrect and WI/I remain can be synthesized.
the avaIlable data entourage
based
against on the
cutaneous
lelshman~asrs
lipId-contalnrng
glycocon-
jugate of i. major Acknowledgements:
T-cell-derived
This could lead to quote dif-
fact that small numbers of normal T-cells In resistance -the
with DL-GC
sate Isolate used, and responsrveness of In fected
presence
more eficlent In BALBic
Interest IS the recent de-
that cells from
vaccine
of this complexity
reduce
IS the process of T-cell-dependent
monstration
of EF and
major antlbodles38.
the vigorous pursurt of a defined antigen
Some
The Mabs have been used In competrtrve
Why
polyclonal rabbit an&i
Injected with L major IS complexI..
--$ hrgh resting clone
disease promotlon
will antigen antlbody complexes
rbrllty versus resrstance In varrous F, mice
low--j
high
EF cross-llnked
WIII protect C3H mace agarnst dlseasejj as
Nevertheless
of sustept-
bated with low numbers of promastrgotes
with low +
However,
with muramyl dlpeptrde and poly-L-lyslne
though the Issue of dominance
are
low IL-2 pr-oductron.
not pro-
lelshmanrasls by
Injections of isolated llpld nor of EF, contarnrng DL-GC.
so until the molecule
of IL-2. The range of
size would then equate
against cutaneous
Such FI mace are resrstant to L major al-
both low producers
+
or Freund’s
Mice are
purified
was the
fragments of thus IgG, Mab when prerncu-
rntermedtate
tected
adluvant’4.
tant 11‘self tolerance’29 to DL-GC
and
frequency)
complete
efficacy Evidence that tt IS the L-GC
if both
T-cells (low
mace. against disease
when Injected wrth C pan/urn
EF) has always been considered very drfficultjs. FI progeny from BALM x CBA/H mice would be suscept\ble If an Immune response gene for DC-GC reactlvlty Inherited from the BALBc parent was the basis of responsiveness, or they would be rests-
tenslvely32 I3
ant&DL-GC
congenlc mace, and genetrcally C3HMe
Immunized
to DL-GC
on Mab columns
promastrgotes
Of particular
genetlcally suscept-
Ly2-
reactive T-
will vaccinate genetlcally susceptible BALI% and
suming T-cells of the other type
easrer to envrsage thts sequence of events (high frequency)
affinity-punfied
solublllred
BALBlcH-2
lmmunoblottlng
anti-L-GC
L-GC from
resrstant
reduced by clonally expanding and IL-2-con-
disease-promoting
I985
cells
of no consequence In BAL&
allable, T,_,, cells may become
It 15
of suppressive,
T-cells and lnhlbrtron of L-GC
This decrease In surface MHC
rected to carbohydrate
to specrfic unreactlvity or tolerance2’.
of
chronlcally Infected, rather than recently In-
because they bind IL-2 poorly. If little IS avvulnerable
macrophages
1,no 2,
Today, voi
In resistant, vaccl-
mice may reflect high Ly2-
for antibody productIon.
the sublethally lrradrated BALBic’“, are rests-
of antrbody
tant to chronic cutaneous lelshman~asls.The
fected
T-cell
In contrast, a lack
In sera from
chronrcally In
mace reflects the domrnant actrvrty
8tudles it-om th,s labors
atory are supported by the Australw Ndtlonal Health and MedIcal Research Council, the UNDPZr\/orld BankWHO Spec~dl Programme. the Rockefeller- Foundation, dnd grant No Al- I9347 from the National Institutes of Health, U 5 A
P;iras~toiogv Today, voi 1. no 2. 1985
9
63
Al;st / txp BIO/
MNtchell. G F et ai I I98 II
Mcd So SO,539-544 IO
Clew
I Y, I-ialc C and Howad
lmmu~~ol II
I 28. I9 I7
Handmdn,
JW I2
t
Ii
Mitchell.
I4
Handmar
: 1979) I5
t
22
Zehavl.
Goding,
imrntnogenet
Crrcdlg.
EURO
immLro/
JA
K
and
! 0, 395 G F
21
Cd
25
MItchelI.
( 1982)
8
C B
and
133, 335 I
1
Schrur
; l9?1)
Wyler
D]
26
Zucker “UT
G F
I9
TltLs
JC,,Hale.
Revi 6 I 2 Ii-
C and xr*r.
eta/
(l984)/
(i 98 I )I
FY
irwnunoi
Pzasitenkd 69 695-
A and Gr eenblatt
C L
Handman
t
27
Malkovsky
M
28
133, l594-
Vllth
29
and Medawdr
31
Nacy.
J
(I 979)
EXQ
Schnur.
LF
32
and
C1983)
CL
a/
~1983)
Meltzer.
l:nmiinof
&ii
immun
77,
lbarra,
A AL
Pormrtology
de, Howard
!otiler.
AH
J G and Snap-y. D
85 523-53
C i
M,crobrol 34
M 8 and
133. 3344- 3350
i 1982)
Greenblat
33
et
I
a;
J
Cifn
i 1985)
Proc
t 1983)
18, i91 -191
Handman,
E and
Not1 Acod
Sci USA (in press)
MItchelI
35
( 1984)
Mitchell.
Greenblatt
C
txp
I
Ecdysone
Handman.
G t
G F
E and ipithill.
BIOI Med
( 1983)
I 53
4115r ]
I, I l-25
So 6 A
E
T W
!-li-
Bn! Me0 iit 62
and Handman
Steinbet-ger
pr (11 (I 984) E$
Poro~~tol 58,
223- 229 38
ASM Nee
G F
A,,sr / &I
MItchelI,
36
37
Porosirot47, 254-169
Grrenblatt
a
CA,
: l984)/
P B (I 984) Inl~
Today 5, 34G342
El-On
CA
298- 307
and Spzthill, T W
249-256
Exp Med 153 ii-?-568 KG
14)
p V c! toi
wnology
Ho:vatd
(Suppl
Ponnroi (III press) ( I9831 Porl~~rte frwwnol 5
Inf 1
Londner
243 I8
Qtof
Med 5~s 8 ?iz? 941
isr /
MItchelI
3357
, l981)lmmonoi
rtdi
Rev
etcn(I 98i),r
U
\ 1985)
Panoi~an.
;I 983) lot
493 Nacy,
30
632
Her nander A G ( 1983) ,n CkTopdtholo#in hrasitic niseasrs CIKA ~o”n~iarlorlSyw poi~um99 PItman, London, pp 138-l 56
23
6~’ 74 82
98-l)/
KP
305 630
701
2306
j W ! 1985)
R M and MxF:ae.
JP
Lou!~,
ano
Aust / ixp 510’ Mtd SC, 57, 9-29
Sypek
I7
Chang,
i,2301
f cl983)j
G
lrnmi~r~ol
,
21
1.29 336
Cot-cry&
I6
JG (1982)j
(I 983) niarure
267-305 C L
I! and God,ng,
/owrl‘?/ 4
L~ew i-Y
I922
GI-eenblatt
(1984)fMHO/ournal
Handman
I600 20
Handman.
49, 48%
i
e: (11 (I 477)/
Przorool
(SuppI)
24,2lA
workshop
J.G. Mercer Edinburgh:
3 I st March -
3rd April
1985.
be important If circulating ecdysterolds are
ety of arthropod
to form the basis of dlagnosls.
P. DIehI; T. Crosby etal; K. Hoffmann. Unl-
Variation during
Although
ecdysterolds
(rnoultlng
hor-
In ecdysterold
cestode
examined
In
concentration
development the
rat
was
versltit
Ulm,
Unlverslty
tapeworm,
species (1-L. Connat and
FRG; A. Slinger and E. Isaac,
of Leeds).
The regulation of ecdysone synthesis by
mones) were orlglnally characterized In ar-
Hymenoiepis dlmlnuta (J. Mercer et a/.. Uni-
prothoraclcotroplc
thropods,
verslty of LIverpool).
the tobacco hornworm,
they have now also been de-
Three
developmen-
tected In coelenterates, anrellds, molluscs,
tal stages of the parasite wIthIn the define-
provoked
trematodes’,
tlve host were analysed and I O-fold varla-
that
tlons
prothoraclc
and
cestodes2, and In free-llvlng
parasttrc
While
nematodes’
the
In free
ecdysterold
physIologIcal function of h<:lmlnth ecdys-
wer-e recorded.
terolds
ences In ecdysterold
IS unknown, their detectton In the
concentration
Although
these
dysone Workshop
consider ed the blosyn-
thesis, dlstrlbutlon
and metabolism
of ec-
dysterolds,
lnteractlcn
other
their
hormones
with
and their mode of ad;ion at the
level of gene Inductlo&epr?sslon. J. Koolman, lnstltut der Pillllpps-Unlvers&t, of
employing
an ecdysterold
radlolm-
in VIVO.
demonstration
using
radioactIve cholesterol. The
first
of
PTH
to
cyclic nucleotlde then stlmulattng ecdysone synthesis (W. Smith and L. Gilbert slty of N. Carolina).
Intermediate
thesis of ecdysone from
In the blosyncholesterol
was
Ecdysone
was also stimulated
Unlversynthesis
in vrtro by a 30 kDa
protein from larval haemolymph (D. Wat-
def?hrtlvely IdentIced as 7-dehydrocholes-
son and W. Bollenbacher, Unlverslty
terol by N. Mllner and H. Rees, Unlverslty
Carolina),
of
Marburg FRG, dIscussed the efficacy
direct
appllcatlon
glands sttmulated an Increase
In Intracellular calcium concentration which
suggestive of ecdysone biosynthesis awaits
much Interest. It was proposed
the
In turn enhanced cAMP synthesis, with the
this
Ec-
LIverpool.
while
radioactive
In
dlffer-
non-specific
Vllth
(PTTH)
Manduca sexta,
concentration were
body fluids of Infected hosts may facllttate diagnosis’ 3, --he
hormone
tncubatlon
precursor,
(2,22,25-tndeoxyecdysone),
of
the
possibly
Inter-endocrine
of N.
part of the complex
regulation
5-p-ketodlol
and juvenile hormone
with various
lenbacher et al.).
of
synthesis
ecdysone (W
Bol-
munoassay In the diagnosis of human hel-
embryonic
month tnfectlons, with analys s of sera from
mrgratorra did give rtse to ecdysone (M.
the meeting WI/I be published In a special
patients with c.llnlcally diagnosed schlsto-
Melster et ai, University
Issue of insect B/ochematry
somiasis,
bourg).
echlnococcosls,
hjmenoleplasls.
ancylostomlasls,
ascarlasls, strongyloldlasls
or
lmmunoreatilve
trlchurlasls
material
and larval tissues
L. Pasteur, Stras-
In addition to free highly
polar
of Locusta
ecdysterolds
conlugated
and
ecdysterolds,
was detected at different concentrations In
which themselves
the sera of 85%
for a long period due to their very low Im-’
comparatively
of Infected patients, and at low concentrations
of ‘uninfected’ controls.
The
in 5%
concentra-
tions of circulating Immunoreactive real suggested
rapid excretion
mate-
of ecdys-
munoreactrvity, dysterold
remained
undetected
metabolltes
Identified. These
compounds
were orlgl-
as ecdysone
roxyecdysone
estenfied at Czr with palm\-
ecdysone
Intravenously
mice (R. Lafont et a/., CNFS. proximately excreted
60%
Into
Paris). Ap-
of the radIoactIvIty was
In faeces or urine wIthin
mostly
as unmetabolized
though
metabolltes
less
48h,
ecdysone,
al-
polar than ec-
dysone were also detected This effclent excretion and metabolism WIII obviously
Nlrde.
or
P et al
(I 984)
\n Elosynthesis,
M&b&m
andModeof Actionof InvertebrateHormones (Hoffman.J and Porchet. M edsj pp 33 I 337, Sprqer-V&g.
nally detected In tlcks4b, and have been characterized
radIoactIve
References
has recently been
terolds by the parasites. The fate of ecdysby qectlng
Julran Mercer is at the Department of B/ochem/stry, Unwers~ of iwerpooi, PO Box 147, iwerpoolL69 35X, UK
a new class of apolar ec-
terolds
in VIVOwas examined
Some (but not all) of the papers from
Heldelber
g
Rees, H H. and Mendls, A H W (I 984) ,n Biosyn-
20.hyd-
Met&&m dndModeofActionofinver-
theas.
t&rateHormones (Hoffman,
J and Porchet,
eds) pp 33%345.
and P. DIehI, CNRS,
Biosynthesis.Metabolism andModeofActionof invertebrateHormones (Hoffman, J and Por-
Unlverslty
Koolman.
Pans; T. Crosby et al.,
of Llverpool).
On
hydrolysis
with pig liver esterase, these compounds yield free ecdysterolds to
be
either
metabolltes.
storage
or
Connat.
InactIvatIon
Slmllar, If not Identical, corn-’
pounds have now been detected In a varl-
J Walter,
chet. M. Heidelberg
and are presumed
Gen 5
eds) J -L
Camp.
W~gglesworth,
(I 985)
Springer-V&g,
M
tic, steanc, olelc or llnoleic acld(l-L. Connat
Arch
pp
Dlehl,
]
Heidelberg
and Zahner,
323-330, PA
H
( 1984)
r
Sprtngerer-Verlag,
and MO~ICI. M
(I 984)
Endocrinoi56, I oo- I IO K P, Lewis, Insect
D
and
Bnchem Physiol
Rees, H H I, 39-54
61
T-lymphocytes recognise Leishmania glycocon jugates G.F. Mitchell and E. Handman J-lymphocytes can have erther resistance-
glycocon+rgate (L-GC).
promotrng or &ease-promoting
lrprd and orrented
effects ,n
murrne cutaneous letshmanr~s~s.Recently we
that
showed
o /rp&contor?lng
giycocoqu-
MHC
molecules
rophages,
when anchored by
In relation on
We
to class I/
infected
mat-
also propose
sron of T,,
cells by consumrng lnterleukrn-
2 (IL-2). These ‘suppressor’ T-cells have a
IS both an Inducer and a target
of
promastigotes to mocrophages. wrll vaccinate mice against disease. in contrast,
T-cells. These cells lack the Ly2 surface antigen and can actrvate macrophages;
trons from
the
they must be present at hrgh frequency
mrce”’ ‘j. These
water-so/jib/e
carbohpdrale
fragment
certain
class
It
normal
[or suppress/on ofhost
T-cells can efficrently restore
resrsfanre We prop-
ose that two types ofi-cells suface
anflgen,
eff+cts in cutaneous drferent
lackrng the Ly2
and with fwo very d@rent iefshmanrasfs, recognize
carbohydrate
epr[o’>es on the same
i
<.T,,, are
readily
molecule IS orrentated
presented to the rmmtlne system
the ltprd component rophage
Isolates of the p-otozoan
para-
nude
membrane
leased from T,,
when
The
suppressor
carbohydrate
process,
infected mac-
anchored
Into the promastrgote
molecule
mernbrane by covalently bound llprd and IS the r-ecognltron molecule for macro-
rem
cells which activates the
phagesl’
Further-
the glycocon+rgate
promoting
sponses and the generation
Irpldated glycoconlugate
may be y-Interferon,
actrng
of parasrto-
Tcells
Such mace show striking varratrons In sus
crdal oxygen IntermedIates In Infected mat-
receptors
ceptrbrl~ty. In BALE&
rophages’.
which are recruited
strains (H-2
mrre
and
other
congenrc strarns), expanding
If the expression
of class II MHC
or avatlabrlrty
chronrcally
rnjectron
genetrcally susceptrble BALBIc mrcel.1, then
sequent
of
vrscerallzatlon
death Other are
promastrgotes.
with
of infectron,
suband
mouse strarns. such as CBA/H.
hrghly resrstant to
small cutaneous
disease
Infected
the efficiency of MHC-restrIcted sron of T,,
uninfected
de-
on the
macrophages,
Into the lesion by l--
rty reactrons ’ The
expres-
Ly2_ rewance-promoring
L-GC
at the surface of promasr-
gotes, and perhaps
at the Infected
mat-
rophage surface, IS susceptrble to cleavage
Ly2- disease-promoung
Tna cell at high frequency.
completely’
spec,fic,ry for recognltlon-
I, characterrstcs
with
(IXGC)
and any
lessons or swellings that
host
of
cells IS r-educed I’) I’.
appear at the tlllectron sate heal rapidly and Two
macrophages
can occur
cells which mediate delayed hypersensltrv-
molecules IS drmrnshed on
cutaneous lessons develop after cutaneous
of
IS
surface
rnductron of disease-
macrophages,
can infect mace of vartous Inbred strarns.
In this at-
tachment
at close range and leading to oxrdatrve re-
lershmanrasrs,
of
of
trc (Old
cutaneous
determinants
mastrgotes to gain access to mat rophages
sate, Lershmanro major, the cause of zoonoWorld)
BAL&
T-cells also
through facrlltated phagocytosr9
the
by IncorporatIon
Intothe
rn cell pop&
Infected
and bound to a macr-ophage receptor [Frg I ) This treceptor IS used by L. map pro-
portton of the L-GC avarlable
molecule depending on how thusn-to/ecu/e IS
Human
recogntse
chronrcally
the glycoconJugate, tn this case de-llpldated
cells recognize determinants
on the carbohydrate that
rn
resrstance to
In hypothymrc
In normal lymphold organs
but are at a high frequency
lymphord organs because normal
mc?ot rnfectlon
mlceg
low frequency
MHC-restricted
denved from thn glycoirprd w~/lsensltrze mice
drsease-
T-cells” lo Id I0 tnhrbrt expan-
gate, involved in
that Ly2-
promoting
affect
course of rnfec?ton: T-cell-dependent
the
T
cell at low frequency. _
spec,fic,ty for backbone
ste ep\topes of
epnopes of glycocon)ugare EZ
glycocon~ugate
(htgh clonal exparwon
rm-
MO
A--\
IL-2 connumlng potentlall
mune responses, and the ‘permrssrveness’ of host macrophages3.
As expected,
the
characterrstrcs Iof the parasrte also Influence the outcome
elf rnfectlon”m’, and there are
cloned lines of i. major which do not produce
lessons In genetically
susceptjble
mice> a. Although sial, the
several Issues are controver-
cellular
cutaneous
rmmunolcgy
lelshmanrasrs
clearer. There lymphocytes
of murlne becomrng
IS
IS no doubt
that certain T-
orientedby
pr-omote both the perpetua-
Macmphage
lipid.
tion and the resolutron ofdrsease9 ‘0. In this artrcle, we argue that an amphrpathrc, Irprdcontarnrng glycoconfugate the de-lrprdated,
of L. ma/or. and
water-soluble
glycocon-
fugate derrved from It by enzymatic cleavagel’ 12, have cutaneous
a central
role
lershmanrasls. We
each stimulates a drfferent
In murrne belreve that
subset of T-
Fig. I _Pi oposed scheme of events resuhng inInductronand exprcssron of resistance-pr-ornot~ngand disease-promoting rmmune responses in murlnc cutaneous lershmanlasfsE r-eprcsents class II MHC-rrestrrcted rnacrophage actuation It close range. which may be rttlated by y-interferon. II MHC
Ei represents
(I rqon)
restricted
macrophage in both
~nh~b~t~onthroqh
IL-2
consumpt:on
lnducnon
1s class
casts
cells, one responsrble for the Inductron and expression and the promotrng We For
of host-protec:rve other
responsrble
rmmunrty for
drsease-
immunrty
propose
Abbreviations thymus-der excreted
I, InductIon lved cell, MHC.
E.
expression,
malor
i,,,
cell,
macrophage-actlvdtlng
h~stocompat~b~l~ty complex
[H-Z).
l-cell,
T-cell,
11-2, ~nterlcuk~n-2.
EF,
factor
that the Irprd-contarnrng
technical reasons we
are unable
toreproduce this figure in colour in this edition -
see the August
issue
of ParasitologyToday for full dour
illustration
62
Pswtoiogy
by an enzyme wrth a phospholrpase CIIIllke activrty In L. ma/or’ ‘,‘2. The carbohydrate-nch DL-GC, together with any LGC In promastlgote culture supernatants are what have been termed ‘excreted factor’ (EF)22*3. These molecules form the basrs of’s serotyprng system In Lelshmonia spp. first described by Schnur et 0f.2~.Parasites with high enzyme actrvrty WIII cleave L-GC raprdly and, as killed organisms, ~111 vaconate less effectrvely than parasrtes with low enzyme actlvlty2s. EF has Inhrbltory effects on responses of Immune human blood lymphocytes to crude promastlgote antrgens, responses that surprisrngly can be ascnbed entirely to periodate-sensltlve determlnantslb. As dlscussed prevlously2. the range of specrficltles that disease-promoting T-cells may have In this system IStotally unknown. We have emphasrsed rn thrs hypothesis a population of Ly2-- T-cells at low frequency In normal uninfected mice that has specrficrty for carbohydrate backbone eprtopes of DL-GC. We propose that these T-cells expand rapidly and are potent IL-2 consumers. This IS speculatrve, but could explarn the activity of Ly2Y cells that lnhrblt clonal expansron of T,, cells which lack Ly2 markers2. If this notlon IS valid then It may be that any T-cell populatlon with high IL-2 consuming potential and which IS specific for any antigen determrn ant, may have disease-promoting potentral. The speculation could further suggest that Ly2- T-cells at low lnrtlal frequency In normal lymphold organs, as dlstlnct from those at high frequency that have already been clonally expanded through Internal lmmunoregulatory clrcurts will have many IL-2 receptors. That IS,there IS an Inverse correlation
between
the srze of a ‘resting’
T-cell clone and the numbers ceptors
high frequency, further
of IL-2 re-
on each cell. TMA cells already at yet requrred to proliferate
In order
rophage
to mediate efficient mac-
actlvatron
(at
mice). are dependent
least
In BALB’c
on high IL-2 levels
number the
of MHC
surface
molecules IS reduced on
of Infected
BALBic mlcei4. This presumably applres to fected, macrophages and, In terms of Ly2T-cell recognrtion. to class II MHC molecules. molecules IS nude mace Infected with low numbers of normal cells where the actlvltres of the T,, cellsare unln terrupted by disease-promoting T-cells The latter are present In very low numbers In mlnlmally reconstituted nude mace. Thus effect of parasl%atlon In BALE’c mice becomes increasingly Important as the efficlency of T,, cell inductron and expansion IS
BALlVc
and other
ible mice might be responders the
macrophage
whereas
on
most other
are genetically
receptor mouse
(Fig.
I)
strains that
resistant. such as CBA/H.
are nonresponders.
lmmunrzatlon
with a
view to ellcrtrng ant/body to DL-GC
(or to
basis of
In CBA/H.
non-responsiveness
may hinge on the per-
mrssrveness of macrophages’
mice and close relatives compared mace such as CBM,
C3HHe
WI&
and C57BL/6?
I+, the para-
macrophages
medrators30”. ferent
to
patterns In the Inheritance
of resis-
tance In F, hybrrds of BALBic and various resistant parental stralns’3. Analysis of the I-GC GC
and derived
DL-
has been facrlltated by the avallablllty
of two monoclonal
dntrbodres (Mabs) di-
One
determinants
techniques
Mab, WIC79.3 We
and
using Mabs’ I.
has been used exhave
found
that
Fab
the lnfectrvrty of promastlgotesa4.
radrormmunoassays
to demonstrate
In the sera of vaccinated, ceptrble
the
of antrglycoconfugate antrbodre; mice
that are
easej5 36. AntIbodIes
genetically susresIstant
to drs-
are not detectable
sera frorn chronIcally Infected
In
mace. The
Any explanatron must take account of the
hrgh levels of antrbody nated
BAL’Bc nude mace promote
actrvrty to L-GC with some helper actlvlty
mrnrmally reconstituted
BALB’c nude’), and
the protective of normal
BALBic mice
or EF WI/I reduce
effects of small numbers
BALFYc cells In nude mace. To
date, thrs IS the only evidence that dlseasepromoting
T-cells in this system may In-
clude cells with speclficlty for DL-GC are
directed
to
carbohydrate
whrch doffer from I-GC tion to the Immune must be protected
in therr presenta-
from enzymatic degr-a-
1%vacclnatlng
that IS protective
L-GC
that
eprtopes
system. Thus, L-GC
datlon In order to preserve
in the
in vaccl-
nated mice IS still IndIrect and WI/I remain can be synthesized.
the avaIlable data entourage
based
against on the
cutaneous
lelshman~asrs
lipId-contalnrng
glycocon-
jugate of i. major Acknowledgements:
T-cell-derived
This could lead to quote dif-
fact that small numbers of normal T-cells In resistance -the
with DL-GC
sate Isolate used, and responsrveness of In fected
presence
more eficlent In BALBic
Interest IS the recent de-
that cells from
vaccine
of this complexity
reduce
IS the process of T-cell-dependent
monstration
of EF and
major antlbodles38.
the vigorous pursurt of a defined antigen
Some
The Mabs have been used In competrtrve
Why
polyclonal rabbit an&i
Injected with L major IS complexI..
--$ hrgh resting clone
disease promotlon
will antigen antlbody complexes
rbrllty versus resrstance In varrous F, mice
low--j
high
EF cross-llnked
WIII protect C3H mace agarnst dlseasejj as
Nevertheless
of sustept-
bated with low numbers of promastrgotes
with low +
However,
with muramyl dlpeptrde and poly-L-lyslne
though the Issue of dominance
are
low IL-2 pr-oductron.
not pro-
lelshmanrasls by
Injections of isolated llpld nor of EF, contarnrng DL-GC.
so until the molecule
of IL-2. The range of
size would then equate
against cutaneous
Such FI mace are resrstant to L major al-
both low producers
+
or Freund’s
Mice are
purified
was the
fragments of thus IgG, Mab when prerncu-
rntermedtate
tected
adluvant’4.
tant 11‘self tolerance’29 to DL-GC
and
frequency)
complete
efficacy Evidence that tt IS the L-GC
if both
T-cells (low
mace. against disease
when Injected wrth C pan/urn
EF) has always been considered very drfficultjs. FI progeny from BALM x CBA/H mice would be suscept\ble If an Immune response gene for DC-GC reactlvlty Inherited from the BALBc parent was the basis of responsiveness, or they would be rests-
tenslvely32 I3
ant&DL-GC
congenlc mace, and genetrcally C3HMe
Immunized
to DL-GC
on Mab columns
promastrgotes
Of particular
genetlcally suscept-
Ly2-
reactive T-
will vaccinate genetlcally susceptible BALI% and
suming T-cells of the other type
easrer to envrsage thts sequence of events (high frequency)
affinity-punfied
solublllred
BALBlcH-2
lmmunoblottlng
anti-L-GC
L-GC from
resrstant
reduced by clonally expanding and IL-2-con-
disease-promoting
I985
cells
of no consequence In BAL&
allable, T,_,, cells may become
It 15
of suppressive,
T-cells and lnhlbrtron of L-GC
This decrease In surface MHC
rected to carbohydrate
to specrfic unreactlvity or tolerance2’.
of
chronlcally Infected, rather than recently In-
because they bind IL-2 poorly. If little IS avvulnerable
macrophages
1,no 2,
Today, voi
In resistant, vaccl-
mice may reflect high Ly2-
for antibody productIon.
the sublethally lrradrated BALBic’“, are rests-
of antrbody
tant to chronic cutaneous lelshman~asls.The
fected
T-cell
In contrast, a lack
In sera from
chronrcally In
mace reflects the domrnant actrvrty
8tudles it-om th,s labors
atory are supported by the Australw Ndtlonal Health and MedIcal Research Council, the UNDPZr\/orld BankWHO Spec~dl Programme. the Rockefeller- Foundation, dnd grant No Al- I9347 from the National Institutes of Health, U 5 A
P;iras~toiogv Today, voi 1. no 2. 1985
9
63
Al;st / txp BIO/
MNtchell. G F et ai I I98 II
Mcd So SO,539-544 IO
Clew
I Y, I-ialc C and Howad
lmmu~~ol II
I 28. I9 I7
Handmdn,
JW I2
t
Ii
Mitchell.
I4
Handmar
: 1979) I5
t
22
Zehavl.
Goding,
imrntnogenet
Crrcdlg.
EURO
immLro/
JA
K
and
! 0, 395 G F
21
Cd
25
MItchelI.
( 1982)
8
C B
and
133, 335 I
1
Schrur
; l9?1)
Wyler
D]
26
Zucker “UT
G F
I9
TltLs
JC,,Hale.
Revi 6 I 2 Ii-
C and xr*r.
eta/
(l984)/
(i 98 I )I
FY
irwnunoi
Pzasitenkd 69 695-
A and Gr eenblatt
C L
Handman
t
27
Malkovsky
M
28
133, l594-
Vllth
29
and Medawdr
31
Nacy.
J
(I 979)
EXQ
Schnur.
LF
32
and
C1983)
CL
a/
~1983)
Meltzer.
l:nmiinof
&ii
immun
77,
lbarra,
A AL
Pormrtology
de, Howard
!otiler.
AH
J G and Snap-y. D
85 523-53
C i
M,crobrol 34
M 8 and
133. 3344- 3350
i 1982)
Greenblat
33
et
I
a;
J
Cifn
i 1985)
Proc
t 1983)
18, i91 -191
Handman,
E and
Not1 Acod
Sci USA (in press)
MItchelI
35
( 1984)
Mitchell.
Greenblatt
C
txp
I
Ecdysone
Handman.
G t
G F
E and ipithill.
BIOI Med
( 1983)
I 53
4115r ]
I, I l-25
So 6 A
E
T W
!-li-
Bn! Me0 iit 62
and Handman
Steinbet-ger
pr (11 (I 984) E$
Poro~~tol 58,
223- 229 38
ASM Nee
G F
A,,sr / &I
MItchelI,
36
37
Porosirot47, 254-169
Grrenblatt
a
CA,
: l984)/
P B (I 984) Inl~
Today 5, 34G342
El-On
CA
298- 307
and Spzthill, T W
249-256
Exp Med 153 ii-?-568 KG
14)
p V c! toi
wnology
Ho:vatd
(Suppl
Ponnroi (III press) ( I9831 Porl~~rte frwwnol 5
Inf 1
Londner
243 I8
Qtof
Med 5~s 8 ?iz? 941
isr /
MItchelI
3357
, l981)lmmonoi
rtdi
Rev
etcn(I 98i),r
U
\ 1985)
Panoi~an.
;I 983) lot
493 Nacy,
30
632
Her nander A G ( 1983) ,n CkTopdtholo#in hrasitic niseasrs CIKA ~o”n~iarlorlSyw poi~um99 PItman, London, pp 138-l 56
23
6~’ 74 82
98-l)/
KP
305 630
701
2306
j W ! 1985)
R M and MxF:ae.
JP
Lou!~,
ano
Aust / ixp 510’ Mtd SC, 57, 9-29
Sypek
I7
Chang,
i,2301
f cl983)j
G
lrnmi~r~ol
,
21
1.29 336
Cot-cry&
I6
JG (1982)j
(I 983) niarure
267-305 C L
I! and God,ng,
/owrl‘?/ 4
L~ew i-Y
I922
GI-eenblatt
(1984)fMHO/ournal
Handman
I600 20
Handman.
49, 48%
i
e: (11 (I 477)/
Przorool
(SuppI)
24,2lA
workshop
J.G. Mercer Edinburgh:
3 I st March -
3rd April
1985.
be important If circulating ecdysterolds are
ety of arthropod
to form the basis of dlagnosls.
P. DIehI; T. Crosby etal; K. Hoffmann. Unl-
Variation during
Although
ecdysterolds
(rnoultlng
hor-
In ecdysterold
cestode
examined
In
concentration
development the
rat
was
versltit
Ulm,
Unlverslty
tapeworm,
species (1-L. Connat and
FRG; A. Slinger and E. Isaac,
of Leeds).
The regulation of ecdysone synthesis by
mones) were orlglnally characterized In ar-
Hymenoiepis dlmlnuta (J. Mercer et a/.. Uni-
prothoraclcotroplc
thropods,
verslty of LIverpool).
the tobacco hornworm,
they have now also been de-
Three
developmen-
tected In coelenterates, anrellds, molluscs,
tal stages of the parasite wIthIn the define-
provoked
trematodes’,
tlve host were analysed and I O-fold varla-
that
tlons
prothoraclc
and
cestodes2, and In free-llvlng
parasttrc
While
nematodes’
the
In free
ecdysterold
physIologIcal function of h<:lmlnth ecdys-
wer-e recorded.
terolds
ences In ecdysterold
IS unknown, their detectton In the
concentration
Although
these
dysone Workshop
consider ed the blosyn-
thesis, dlstrlbutlon
and metabolism
of ec-
dysterolds,
lnteractlcn
other
their
hormones
with
and their mode of ad;ion at the
level of gene Inductlo&epr?sslon. J. Koolman, lnstltut der Pillllpps-Unlvers&t, of
employing
an ecdysterold
radlolm-
in VIVO.
demonstration
using
radioactIve cholesterol. The
first
of
PTH
to
cyclic nucleotlde then stlmulattng ecdysone synthesis (W. Smith and L. Gilbert slty of N. Carolina).
Intermediate
thesis of ecdysone from
In the blosyncholesterol
was
Ecdysone
was also stimulated
Unlversynthesis
in vrtro by a 30 kDa
protein from larval haemolymph (D. Wat-
def?hrtlvely IdentIced as 7-dehydrocholes-
son and W. Bollenbacher, Unlverslty
terol by N. Mllner and H. Rees, Unlverslty
Carolina),
of
Marburg FRG, dIscussed the efficacy
direct
appllcatlon
glands sttmulated an Increase
In Intracellular calcium concentration which
suggestive of ecdysone biosynthesis awaits
much Interest. It was proposed
the
In turn enhanced cAMP synthesis, with the
this
Ec-
LIverpool.
while
radioactive
In
dlffer-
non-specific
Vllth
(PTTH)
Manduca sexta,
concentration were
body fluids of Infected hosts may facllttate diagnosis’ 3, --he
hormone
tncubatlon
precursor,
(2,22,25-tndeoxyecdysone),
of
the
possibly
Inter-endocrine
of N.
part of the complex
regulation
5-p-ketodlol
and juvenile hormone
with various
lenbacher et al.).
of
synthesis
ecdysone (W
Bol-
munoassay In the diagnosis of human hel-
embryonic
month tnfectlons, with analys s of sera from
mrgratorra did give rtse to ecdysone (M.
the meeting WI/I be published In a special
patients with c.llnlcally diagnosed schlsto-
Melster et ai, University
Issue of insect B/ochematry
somiasis,
bourg).
echlnococcosls,
hjmenoleplasls.
ancylostomlasls,
ascarlasls, strongyloldlasls
or
lmmunoreatilve
trlchurlasls
material
and larval tissues
L. Pasteur, Stras-
In addition to free highly
polar
of Locusta
ecdysterolds
conlugated
and
ecdysterolds,
was detected at different concentrations In
which themselves
the sera of 85%
for a long period due to their very low Im-’
comparatively
of Infected patients, and at low concentrations
of ‘uninfected’ controls.
The
in 5%
concentra-
tions of circulating Immunoreactive real suggested
rapid excretion
mate-
of ecdys-
munoreactrvity, dysterold
remained
undetected
metabolltes
Identified. These
compounds
were orlgl-
as ecdysone
roxyecdysone
estenfied at Czr with palm\-
ecdysone
Intravenously
mice (R. Lafont et a/., CNFS. proximately excreted
60%
Into
Paris). Ap-
of the radIoactIvIty was
In faeces or urine wIthin
mostly
as unmetabolized
though
metabolltes
less
48h,
ecdysone,
al-
polar than ec-
dysone were also detected This effclent excretion and metabolism WIII obviously
Nlrde.
or
P et al
(I 984)
\n Elosynthesis,
M&b&m
andModeof Actionof InvertebrateHormones (Hoffman.J and Porchet. M edsj pp 33 I 337, Sprqer-V&g.
nally detected In tlcks4b, and have been characterized
radIoactIve
References
has recently been
terolds by the parasites. The fate of ecdysby qectlng
Julran Mercer is at the Department of B/ochem/stry, Unwers~ of iwerpooi, PO Box 147, iwerpoolL69 35X, UK
a new class of apolar ec-
terolds
in VIVOwas examined
Some (but not all) of the papers from
Heldelber
g
Rees, H H. and Mendls, A H W (I 984) ,n Biosyn-
20.hyd-
Met&&m dndModeofActionofinver-
theas.
t&rateHormones (Hoffman,
J and Porchet,
eds) pp 33%345.
and P. DIehI, CNRS,
Biosynthesis.Metabolism andModeofActionof invertebrateHormones (Hoffman, J and Por-
Unlverslty
Koolman.
Pans; T. Crosby et al.,
of Llverpool).
On
hydrolysis
with pig liver esterase, these compounds yield free ecdysterolds to
be
either
metabolltes.
storage
or
Connat.
InactIvatIon
Slmllar, If not Identical, corn-’
pounds have now been detected In a varl-
J Walter,
chet. M. Heidelberg
and are presumed
Gen 5
eds) J -L
Camp.
W~gglesworth,
(I 985)
Springer-V&g,
M
tic, steanc, olelc or llnoleic acld(l-L. Connat
Arch
pp
Dlehl,
]
Heidelberg
and Zahner,
323-330, PA
H
( 1984)
r
Sprtngerer-Verlag,
and MO~ICI. M
(I 984)
Endocrinoi56, I oo- I IO K P, Lewis, Insect
D
and
Bnchem Physiol
Rees, H H I, 39-54