Date: 18 Feb 1999 18:33:22
From: aidsnews@igc.org
Subject: AIDS Treatment News #312

AIDS TREATMENT NEWS #312, February 12, 1999
   phone 800-TREAT-1-2, or 415-255-0588

Contents:

Retroviruses Conference, Chicago 1999

Restoring HIV-Specific Immunity

HIV-Specific Immunity: Major Conference Sessions

Houston, April 30: Eleventh Annual Houston Conference on AIDS 
in America

3rd International Conference on Nutrition and HIV Infection 
(Focusing on Metabolic Complications), Cannes, France, April 
22-25

International Health: Preparing for the 21st Century, San 
Francisco, February 27


***** Retroviruses Conference, Chicago 1999

by John S. James

The 6th Conference on Retroviruses and Opportunistic 
Infections, January 31 - February 4 in Chicago, is the 
largest AIDS scientific meeting of 1999 and provided a 
complex snapshot of the current state of basic and applied 
medical science of AIDS. Faster progress in understanding the 
disease is now being made in many areas, suggesting targets 
for new treatments. There are promising compounds in the 
pharmaceutical pipeline, and research with existing 
treatments is generally going well. But there are serious 
gaps in applying the new biological knowledge to product 
development, with most of the new drugs being (hopefully) 
better versions of existing ones; companies are reluctant to 
invest in basically new approaches. And much confusion 
remains concerning the lipodystrophy and metabolic problems 
which may be side effects of some treatments, especially 
protease inhibitors--with little agreement yet on the 
mechanisms of what is happening, what to do about it, or even 
how to define and describe these problems consistently.

We believe that HIV-specific immunity is the most important 
single research area emphasized at this conference; see 
"Restoring HIV-Specific Immunity," below, for a summary of a 
few of the many presentations. We will look at clinical 
trials, and other treatment research, in our following 
issues.

Besides HIV-specific immunity, other important areas include:

* Other immunity studies, including measurements of the 
lifespan of lymphocytes in the body, understanding and 
measuring immunity to particular opportunistic infections, 
and predictors of response to therapy for opportunistic 
infections;

* Lipodystrophy and metabolic problems, including work by 
lipid experts at Glaxo Wellcome who have provided data on 
possible causes which had not been identified before;

* Viral drug resistance, including new evidence of the value 
of providing these test results, with expert virology advice, 
to physicians;

* New long-term data from large clinical trials--both for new 
drugs, and for new combinations of available ones;

* Early information on new compounds just entering human 
trials;

* New information on HIV transmission from mother to child, 
and on shorter drug regimens to help prevent it;

* Virology, especially discoveries of new targets for 
potential drugs.

 * And many other important oral and poster presentations 
which do not fit into a major category.


***** Restoring HIV-Specific Immunity

by John S. James

When HIV is well controlled with antiretroviral drugs, 
immunity to infections--other than HIV--usually starts to 
return. As a result, some opportunistic infections go away 
without specific treatment; and sometimes patients can stop 
prophylactic treatment for certain opportunistic diseases 
(although today it is often unclear who can stop prophylaxis 
safely, and who cannot).

But immunity to HIV itself is different. The CD4 T-helper 
cell response to HIV usually appears to be eliminated very 
early in HIV infection, and to return very slowly or not at 
all, even when HIV has been well suppressed for years with 
antiretrovirals, and other immunities do return. And without 
this helper response, the HIV-specific CD8 CTLs (cytotoxic T 
lymphocytes), which appear to be centrally important to the 
control of the virus during the initial HIV infection 
(primary HIV disease), seem to lose their ability to respond 
effectively to chronic HIV infection.

No one knows for sure why HIV is different from other viruses 
in this way, but it is likely that because HIV specifically 
targets activated CD4 T-helper cells, it will selectively 
kill especially those cells which are able to recognize it 
and respond. And when HIV is not present due to being 
suppressed by antiretrovirals, the CD4 T-helper cells 
genetically able to recognize it usually do not respond--
possibly because they were wiped out earlier, or because they 
were damaged in some way, or simply because they will not 
encounter HIV antigens, and therefore not become activated 
and not mobilize normal immune responses.

The potential importance of the body's failure to restore 
HIV-specific immunity becomes clear when one realizes that 
long-term nonprogressors--the small minority of persons who 
are infected with HIV but naturally maintain a very low viral 
load, with a high CD4 count and no evidence of disease 
progression even after many years--usually do have a CD4 T-
helper cell immune response to HIV, while those who progress 
and become ill invariably do not. If HIV-specific immunity 
could be restored, might persons who now have HIV disease 
become long-term nonprogressors, no longer needing any 
treatment, or perhaps only needing treatment occasionally if 
their immune system begins to lose control of the virus 
again? No one knows at this time, since the research is just 
beginning. But the results so far are promising, and a 
handful of patients who had been dependent on antiretrovirals 
have already been able to stop these drugs entirely, 
sometimes for more than a year, without having the viral-load 
rebound that almost always happens when patients stop their 
antiretroviral treatment (and which did happen to these 
individuals when they first tried discontinuing their 
antiretrovirals).

Strategies for Restoring HIV-Specific Immunity

Several possible approaches for restoring HIV-specific 
immunity are now being researched:

* Therapeutic vaccination while the virus is well suppressed 
with antiretrovirals. In one study, first reported last 
summer at Geneva and with new data last week at the 
Retroviruses conference, volunteers whose viral load had been 
effectively suppressed with antiretrovirals were also given a 
killed-virus immunogen (the Remune(TM) therapeutic vaccine, 
which was developed by the late Dr. Jonas Salk); a control 
group was given the inactive component of the same vaccine 
but without the HIV. T-helper responses like those of long-
term nonprogressors returned in most of those given the real 
vaccine--and in none of the control group (see details 
below).

It is not known that producing an immune response in this way 
will have clinical benefit, since the results so far have 
been only laboratory tests, as none of these volunteers has 
yet chosen to stop their drugs in order to see whether or not 
their viral load comes back.

Here is one theory of what may be happening in this case. As 
a person's CD4 count increases after suppression of HIV by 
antiretroviral drugs, a few of the cells that make up that 
count are new, "naive" CD4 T-helper cells released by the 
thymus (naive T-cells are those which have not yet 
encountered the particular antigen--such as a protein from a 
particular virus or bacterium--which the cell is genetically 
programmed to recognize). Of these new naive cells, a small 
minority are, by chance, programmed to recognize HIV. Without 
the antiretrovirals, these cells would recognize HIV, become 
activated as they started to respond to it, but then be 
destroyed by the virus. With only the antiretrovirals, the 
cells would be protected from infection, but there would be 
so little HIV present that they would not encounter it and 
not create an immune response. Adding the vaccine which is 
made from killed virus apparently allows these cells to 
safely develop a normal immune response.

It is also noteworthy that the killed-virus vaccine used in 
this test is made from a virus from Africa which is not clade 
B--the variant of HIV which is common in the U.S. and Europe. 
Even so, the volunteers in this small trial did develop 
immune responses to purified HIV p-24 antigen from two 
different clade B viruses, as well as to the immunogen 
itself--indicating that this approach might be able to confer 
a broad protection against many forms of HIV, not limited 
only to the particular kind of virus which was used to 
prepare the therapeutic vaccine.

Incidentally, the developers of Remune--the Immune Response 
Corporation, later acquired by Agouron Pharmaceuticals--
prefer to call this product an 'immunogen' rather than a 
'vaccine'. It is currently being tested in a large phase III 
trial, separate from the small 43-person trial presented at 
the Retroviruses conference; data from the phase III study 
will be available later this year. Remune has never been 
tested in an HIV-negative person, as a potential preventive 
vaccine; some experts believe that it should be tested for 
this purpose.

* Another potential way to preserve HIV-specific immunity is 
to begin antiretroviral treatment very early, during or 
shortly after primary HIV infection, with the idea of 
preserving HIV-specific immune responses, by suppressing the 
virus before it can destroy the cells that recognize it. At 
the Retroviruses conference, researchers at the Aaron Diamond 
AIDS Research Center presented examples of two patients who 
were treated early (within 3 months of HIV infection), had 
interruptions of therapy due to poor adherence, but now have 
been off all antiretroviral therapy for over a year without 
the virus coming back. However, two other patients in the 
same cohort who tried going off antiretroviral therapy were 
unsuccessful--one had a rapid viral load rebound, and the 
other controlled the virus for four months but then had a 
rebound (details below).

Incidentally, this team reported the HIV-specific immune 
responses in CD8 CTLs (cytotoxic T lymphocytes) instead of in 
CD4 T-helper cells. (The CD4 cells were also measured and 
were concurrent with the CD8 cells, but that data was not 
presented at this conference). In all four patients, the 
strength of their CTL response was associated with how well 
they controlled the virus when they discontinued 
antiretroviral therapy.

* Another research team is trying to reproduce the example of 
"the Berlin patient"--a widely publicized case in which a 
patient who formerly required antiretrovirals to keep his 
viral load under control is now able to do so without drugs, 
and is currently doing well. The Berlin patient was diagnosed 
early, and began antiretroviral treatment "before complete 
seroconversion," about two months after the date of 
infection; he then had to interrupt this treatment because of 
other medical problems. Viral load returned immediately, and 
treatment was restarted; viral load again became 
undetectable. Later, during a second treatment interruption 
also due to medical problems, viral load did not return. 
Treatment was restarted, but then this patient decided to 
stop antiretrovirals permanently. The virus has not returned 
now for over 18 months.

Researchers from the Research Institute for Genetic and Human 
Therapy (RIGHT), of Washington D.C. and Pavia, Italy, noted 
that this patient (1) began treatment very early in the 
disease course, (2) was treated with indinavir, ddI, and 
hydroxyurea (any of the three might or might not have 
mattered), and (3) interrupted and restarted treatment twice 
(which might have provided occasions for CD4 T-helper cells 
to recognize HIV antigens while they were protected by the 
drugs). Later, three volunteers with undetectable viral load 
agreed to interrupt their therapy, under a protocol which 
restarted the drugs when their viral load reached 5,000. None 
of the three have yet been able to control the virus without 
the drugs; however, the time to viral rebound is getting 
longer with each subsequent interruption, indicating recovery 
of HIV-specific immunity.

HIV-Specific Immunity: Details of Presentations at 
Retroviruses Conference

* The therapeutic vaccination trial outlined above was 
presented by Fred Valentine, M.D., of New York University.(1) 
A total of 43 patients were treated with highly active 
antiretroviral therapy (HAART), and were randomly assigned 
the Remune immunogen (a vaccine made from killed HIV) or a 
placebo (in this case the placebo was IFA, which is an 
adjuvant--a substance used to make a vaccine work better--
used in the Remune immunogen). The injections were given at 
weeks 4, 16, and 28. At week 32, the group receiving the 
immunogen had a much higher CD4 T-helper response to three 
different HIV antigens, and a higher production of MIP-1-beta 
in response to HIV antigen; statistical significance for 
these four measures was very good, from p=0.007 to p=0.0002 
(levels reported in the published abstract). Also, there was 
a trend toward lower viral load, but it did not reach the 
p=0.05 level usually taken as statistically significant 
(p=0.29 and p=0.09 in the abstract, p=0.07 currently). 
Unfortunately recruitment for this study was cut short over a 
year ago, before its importance was known, due to financial 
constraints; if the trial had been fully enrolled, it might 
have already shown statistical significance for viral load 
reduction. Note also that statistical proof of viral load 
effect is hard to prove in this case, simply because both 
groups did so well.

It is important to note that the volunteers in this trial 
were not treated during or near primary infection, but could 
have been infected at any time. They were treatment naive and 
had a median CD4 count of 493 and a median viral load of 
about 8,000 copies before they began the study--not because 
this approach could not be made to work for more advanced 
patients, but because it made sense to try the first proof-
of-principle study in volunteers who had less immune damage 
and were easier to treat.

It is also important to remember that there is no proof yet 
that producing HIV-specific immunity will benefit patients--
since it is possible that long-term nonprogressors are able 
to resist HIV infection through some other mechanism, and 
that their HIV-specific immune responses are a consequence of 
that, not the cause of their remaining well. But the 
information available today does suggest that HIV-specific 
immunity is centrally important in the control of this virus.

* In the Aaron Diamond study of early treatment, treatment 
discontinuations, and the CD8 CTL response,(2) all four 
patients studied had been treated with ritonavir, AZT, and 
3TC within 90 days of infection, and viral load went below 
the level of quantification (500 copies in this study) within 
two weeks. Both of the patients who were ultimately 
successful in stopping antiretroviral drugs and controlling 
the virus did have a viral rebound the first time they 
stopped, and restarted the drugs as a result. Both were found 
to have "broad and strong HIV-1 CTL responses that were 
boosted at the time of first drug discontinuation, which was 
associated with HIV-RNA rebound"; apparently the viral 
rebound boosted an already-strong CTL response. Later they 
were able to stop drug without viral rebound.

Of the other two patients in this study, both stopped 
treatment more abruptly. One kept the virus at a low level 
without drugs for several months, but then "CTL responses 
faded and plasma virus rebounded." The other "had a rapid 
viral rebound and a low frequency of HIV-specific CTL."

There is concern that this early work may be misinterpreted 
to justify casual experiments in drug discontinuation; it is 
widely agreed that experiments with drug discontinuation to 
boost HIV-specific immunity should only be done in a research 
setting. These patients, unlike most, started treatment 
within 90 days of infection. The researchers had access to 
tests of HIV-specific immune function, which are not 
available commercially. And only two of the four who stopped 
therapy were able to control the virus for over a year 
without treatment.

* The study based on the Berlin patient involved deliberate 
interruption of therapy in three volunteers;(3) viral load 
was monitored and the drugs were restarted when viral load 
went over 5,000 copies. None of these patients have yet been 
able to stop drugs permanently without the virus returning; 
however, the interval before therapy was required increased 
substantially with each discontinuation.

All three volunteers started with stable viral loads 
(719,000, 22,665, and 33,707 copies). They began treatment 
early, but after primary infection. They were treated for 
three weeks with indinavir, d4T, ddI, and hydroxyurea; viral 
load went below 400 copies for all three of them, during this 
first course of treatment. Then the drugs were stopped for 
one week, followed by two cycles of treatment for three 
months, followed by interruption and then resumption of 
treatment when the viral load reached 5,000.

The first time therapy was stopped for 7 days. On the next 
interruption, it took an average of 14 days for the viral 
load to reach 5,000. On the third interruption, it took an 
average of 37 days for the viral load to reach that level. 
The trial is ongoing.

The researchers believe that the treatment interruptions may 
have prolonged the time to viral rebound. Also, Dr. Lori, who 
presented the results at the conference, believes that 
hydroxyurea may have some immune benefit, as well as 
enhancing the antiretroviral activity of ddI and some other 
drugs. The mechanism of any possible immune benefit is not 
known.

A followup on the Berlin patient was also presented at the 
Retroviruses conference.(4)

Measuring HIV-Specific CD4 and CTL Activity

Dr. Valentine, who presented the HAART plus Remune 
experiment, measured the ability of patients' CD4 T-helper 
cells to respond to HIV; the Aaron Diamond study measured the 
response to HIV of CD8 CTLs (cytotoxic T lymphocytes), 
instead of CD4 T-helper cells. What is the contribution of 
these two kinds of immune cells?

The ultimate answer is unknown, but there is strong evidence 
that CD8 CTLs are critically important for controlling HIV. 
It also appears that during primary HIV infection, when the 
level of virus is very high, CTLs may be able to control the 
virus with little or no help from the CD4 T-helper cells--but 
that this help is essential for mobilizing the CTLs to keep 
the long-lasting chronic infection under control.

The HIV-specific CD4 T-helper cells (a small minority of the 
total T-cell count) may be especially important to measure--
and to restore--because they are highly vulnerable to HIV 
infection--which may explain why the HIV-specific T-helper 
response usually does not come back on its own.

References

1. Valentine F, DeGruttola V, and the Remune 816 Study Team. 
Immunological and virological evaluations of the effects of 
HAART compared to HAART plus an inactivated HIV immunogen 
after 32 weeks. 6th Conference on Retroviruses and 
Opportunistic Infections, Chicago, January 31 - February 4, 
1999 [abstract #346].

2. Ortiz GM, Jin X, Demoitie MA and others. Containment of 
breakthrough HIV plasma viremia in the absence of 
antiretroviral drug therapy is associated with a broad and 
vigorous HIV specific cytotoxic T lymphocyte (CTL) response. 
6th Conference on Retroviruses and Opportunistic Infections, 
Chicago, January 31 - February 4, 1999 [abstract #256].

3. Lori F, Zinn D, and Varga G. Intermittent drug therapy 
increases the time to HIV rebound in humans and induces the 
control of SIV after treatment interruption in monkeys.  6th 
Conference on Retroviruses and Opportunistic Infections, 
Chicago, January 31 - February 4, 1999 [abstract #LB5].

4. Lisziewicz J, Rosenberg E, Lieberman H and others. Immune 
control of HIV after suspension of therapy. 6th Conference on 
Retroviruses and Opportunistic Infections, Chicago, January 
31 - February 4, 1999 [abstract #351].

Note: For instructions on how to obtain these abstracts, see 
"HIV-Specific Immunity: Major Conference Sessions," below.


***** HIV-Specific Immunity: Major Conference Sessions

"Restoring HIV-Specific Immunity," above, discussed four 
research presentations at the Retroviruses conference. There 
were also dozens of other presentations in this area. Here 
are the main categories most relevant to HIV-specific 
immunity, and the abstract numbers in each category.

You can read these abstracts on the Web. Go to 
http://www.retroconference.org, and select 'Conference 
Abstracts'. Search for 'abstract nnn', where nnn is the 
abstract number given in the list below: e.g. 'abstract 256', 
or 'abstract 21' (without the single quotes). You will see 
the title and authors; click the underlined abstract number 
to see the full abstract.

* Immunologic Reserve and Reconstitution: abstracts 21-30;

* HIV Specific Humoral and Cell Mediated Immunity: abstracts 
31-38;

* Topics in Immunology and Immunopathogenesis: abstracts 51-
57B;

* Cellular Immunity to HIV, SIV, and HHV-8: abstracts 252-
261;

* HAART: Effects on Repertoire, Lymphocyte Dynamics, and 
General Immune Response: abstracts 317-338;

* HAART: Reconstitution of HIV-Specific Immunity: abstracts 
339-353;

* Immune Based and Genetic Therapies: abstracts 354-361;

* Immunopathogenesis of Primary HIV Infection: abstracts 553-
559;

* In the Late Breaker session, abstracts LB 3a, LB 3b, and LB 
5. These cannot be searched by abstract number, but can be 
found by searching for a word or phrase from the title. The 
titles are:

- Potent and Aberrant CD4 Responses in Lymphoid Tissue (LT) 
during Primary HIV-1 Infection (PHI);

- Defect in Cytolytic Effector Molecules in Lymphoid Tissue 
(LT) during Primary HIV-1 Infection (PHI) is a Very Early 
Mechanism of Immune Dysfunction; and

- Intermittent Drug Therapy Increases the Time to HIV Rebound 
in Humans and Induces the Control of SIV after Treatment 
Interruption in Monkeys.

You can also search the abstracts for a word or phrase. 
However, searching on authors' names is not reliable at this 
time (since any superscript which appears must be typed as 
part of the name).

Other Sessions Available by Computer

There is also a half-hour lecture with slides, "T-Cell 
Immunity During Acute and Chronic Viral Infection," which can 
be heard and seen in full on the Web, although no abstract 
was published. At the http://www.retroconference.org Web 
site, select 'Hear the Lectures', then select this one from 
the list.

A symposium, Immune Reconstitution and Clinical Implications, 
consisting of five lectures and slide presentations, can also 
be heard and viewed at the site. Select 'Hear the Symposia', 
then select this one, under Thursday, Feb. 4.


***** Houston, April 30: Eleventh Annual Houston Conference 
on AIDS in America

Leading treatment experts will address a one-day AIDS meeting 
focusing on clinical information, in Houston, Texas, on April 
30. Judging from previous years, about 2,000 people are 
expected to attend. Topics and speakers include:

* "The Use of Antiretroviral Therapies" by Martin Markowitz, 
M.D., Aaron Diamond AIDS Research Center;

* "Interactions Involving Drugs Used in the Treatment of 
HIV/AIDS" by Charles Flexner, M.D., Johns Hopkins Hospital;

* "HIV Disease in Children" by Mark Kline, M.D., Baylor 
College of Medicine;

* "Immune Based Therapies" by Brenda Lein of Project Immune 
Restoration at Project Inform;

* "Recent Progress in the Clearing of HIV Reservoirs" by 
Robert Siliciano, M.D., Johns Hopkins Hospital;

* "Ethics: Advertising, Access and Research" by Mark 
Harrington, Treatment Action Group, New York;

* "Immune Reconstitution in the Era of Highly Active 
Antiretroviral Therapy" by Fred Valentine, M.D., New York 
University School of Medicine; and

* "Vaccines for the Prevention of HIV Infection" by Sam 
Avrett, M.P.H., AIDS Vaccine Advocacy Coalition.

This event is free and open to the public. Continuing medical 
education credit is available (there is a $25 fee for the 
credit). The meeting will be held at the George R. Brown 
Convention Center, Friday April 30, with registration and 
continental breakfast starting at 7:00 a.m. and the first 
talk at 8:00 a.m. Advance registration is recommended; call 
International Meeting Managers Inc. at 713-965-0566.


***** 3rd International Conference on Nutrition and HIV 
Infection (Focusing on Metabolic Complications), Cannes, 
France, April 22-25

The 3rd International Conference on Nutrition and HIV 
Infection, focusing this year on Metabolic Complications of 
Antiretroviral Therapy: Clinical Implications, will take 
place in Cannes, France, April 22-25, 1999. The preliminary 
program includes the following sessions:

* Changing Face of AIDS Wasting;

* Longitudinal Nutritional Study on HAART;

* Unique Adverse Effects of HAART;

* Body Composition: Measurement and Manipulation;

* Appetite Regulation;

* Lipid Metabolism;

* Endocrine Disorders in HIV Infection;

* Oxidative Stress and Micronutrients;

* From Insulin Sensitivity to Resistance;

* Developing Countries and Pediatric AIDS;

* Also, there will be a Late Breaker session, and several 
meetings for discussion of selected abstracts.

The official languages of the conference will be French and 
English, with simultaneous translation during the plenary 
sessions, slide sessions, and workshops. Slides and posters 
will be in English.

Advance registration is recommended, but there will also be 
on-site registration. For registration, fee, and hotel 
information, contact:

  ECOR

  c/o The European Heart House

  2035 route des Colles

  Les Templiers - BP 179

  06903 SOPHIA ANTIPOLIS cedex - FRANCE

  Tel. 33 (0) 4 92 94 76 00 - Fax 33 (0) 4 92 94 76 01

Or to obtain a copy of the Second Announcement of the 
meeting, send an email request to: asymptote@hol.fr


***** International Health: Preparing for the 21st Century, 
San Francisco, February 27

A one-day conference "to promote scholarship, public 
awareness, and practical action in the field of international 
health" will take place Saturday, February 27, 1999, 8:00 
a.m. to 5:00 p.m. in San Francisco. This meeting, not focused 
specifically on AIDS, will address major themes of health, 
poverty, and development; family planning and reproductive 
health; and emerging infections and continuing plagues.

Registration is $35 general, $15 student, and $50 exhibitor.

For more information, contact Claire Norris, Conference 
Coordinator, International Health Office, 313 Warren Hall, 
School of Public Health, University of California, Berkeley, 
CA 94720-7360; telephone 510-642-6915, fax 510-643-8236, 
email cnorris@uclink4.berkeley.edu.

Note: Registration deadline is February 19; use the email 
address to request a copy of the registration form.


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